The Five People You Meet in Heaven: the Impact of Relationships

Personal Goal: Attempt to tie every idea, topic, and commentary back to the prompt and the thesis. Make sure no deviations from the current main ideas exist and all ideas are directly relevant to surrounding sentences. Personal Goal: Attempt to tie every idea, topic, and commentary back to the prompt and the thesis. Make sure no deviations from the current main ideas exist and all ideas are directly relevant to surrounding sentences. Clayton Little Ms. Davis English 2 22 February 2013 Independent Reading ProjectThe Five People You Meet in Heaven by Mitch Albom follows a man’s journey through heaven after dying at the age of 83 in a horrific theme park accident. The novel proposes that when one dies, one meets with the five people that most influenced, affected, or defined one, before moving on. The story is told partly through Eddie’s interactions with his five people and also through vivid snapshots of his life, both of which allow the reader to see changes in his char acter and the development of his identity as he journeys through life.The changes in Eddie’s character before and after his death and the musings the author instills in the reader exemplify the theme that what defines an individual the most are the people around them and their relationships with them. The novel begins at the end, right before Eddie dies in the accident. It is here the reader gets the first view of Eddie as an old man, weary of the world: â€Å"His plans never worked out.In time, he found himself graying and wearing looser pants and in a state of weary acceptance, that this was who he was and who he always would be, a man with sand in his shoes in a world of mechanical laughter and grilled frankfurters† (Albom 5). This initial introduction to Eddie delivers the reader with a vivid description of his weariness and resignation. Throughout this same first chapter, the author also interjects small stories of Eddies past, no more than a paragraph each: †Å"Another story went around about Eddie. As a soldier, he had engaged in combat numerous times. He’d been brave.Even won a medal. But toward the end of his service, he got into a fight with one of his own men. That’s how Eddie was wounded. No one knew what happened to the other guy. No one asked† (Albom 8). These short glimpses into Eddie’s past interspersed throughout his last moments make the reader wonder what the meaning of these stories are. The way the author uses short, clipped sentences and the repetition of the phrase â€Å"No one† evokes a tone of mystery, arousing the reader’s curiosity in Eddie’s past. What was Eddie like in his childhood, his adolescence, his adulthood? What made him into what he is now?These unanswered questions pester the reader like flies and builds the framework for future revelations about Eddie’s character. The first of these changes seen in Eddie’s character is when Eddie first awakes in heaven, finding himself 75 years in the past, on Ruby Pier, the place that has always been a constant setting throughout his life. He is at the beginning. It is here that Eddie meets his first person in heaven, the Blue Man, who explains the intricacies of the journey Eddie must travel and how he will meet five people in heaven, â€Å"Each of us was in your life for a reason.You may not have known the reason at the time, and that is what heaven is for. For understanding your life on Earth† (Albom 35). Eddie learns that his relationship with the strange man he barely knows was Eddie’s unintentional act that led to the Blue Man’s death. The knowledge that it was his irresponsibility that caused the death of the man sitting in front of him fills him with guilt and sorrow that ultimately deeply affects his identity and character, as seen in the two quotes, â€Å"‘You see? the Blue Man whispered, having finished the story from his point of view. ‘Litt le Boy? ’ Eddie felt a shiver. ‘Oh no,’ he whispered† (Albom 44), and, â€Å"‘Please, Mister†¦Ã¢â‚¬â„¢ Eddie pleaded. ‘I didn’t know. Believe me†¦God help me, I didn’t know’† (Albom 47). The shock and guilt Eddie feels is profoundly felt by the reader, through words with foreboding connotations like â€Å"whispered† and â€Å"shiver† and by the ellipses and commas between phrases, showing pauses in his speech as he attempts to absorb the impact of the new knowledge.The revelation that he had a hand in murdering another person strongly affects Eddie’s character, making him more paranoid and confrontational, as everything he knew about his life crumbles into a much less desirable image, a trait he holds for the rest of the book. The gruesome relationship between Eddie and his unintended victim affects Eddie’s behavior and attitude in a way that no setting, environment, or event ever could: â€Å"Eddie stepped back. He squared his body as if bracing for a fight†¦Eddie was skeptical. His fists stayed clenched† (Albom 47).The transformation from a weary old man too tired to care about much but the weather to a confrontational man willing to fight for the life he had once known is radical and sudden, and brought about merely through what many would consider a fleeting acquaintance with a man he barely knew. Yet, this apparently minor relationship had a major effect, clearly exemplifying the huge power of a relationship with another individual. The people Eddie meets in heaven do not all affect his character after death, such as the Blue Man, but rather let him and the reader reflect on Eddie’s fluctuating identity in the past.One of these such people was his father: â€Å"The damage done by Eddie’s father was, at the beginning, the damage of neglect† (Albom 104). Eddie was often neglected and abused physically as well as emotionall y by his father. This resulted in him always thirsting for approval or affection, two things he would only ever receive in small, taunting tastes from his father: â€Å"And on occasion, as if to feed the weakest embers of a fire, Eddie’s father let a wrinkle of pride crack the veneer of his disinterest† (Albom 106).This virtual torture of Eddie’s emotions as a child and for the rest of his life would forever scar him and breed a habit of coldness between Eddie and his father. The impact on Eddie’s character cut deep. The abusive relationship between him and his father made him into a man that was always searching for his place in the world, always feeling inadequate. Eddie was never content with his lot in life, not with his wife, job, or family: â€Å"He cursed his father for dying and trapping him in the very life he’d been trying to escape† (Albom 128).Of everything that defined Eddie, the relationship with his father was the most influen tial, a relationship that stemmed from less than opportune circumstances, yet yielded what is perhaps the core of Eddie’s character. After reading The Five People You Meet in Heaven, it becomes obvious to the reader that changes in an individual are direct results of relationships and connections between individuals. Many things can grow to define a person’s self: war, hunger, death, time.Yet none of these can compare with the soft words of a parent or the pleading of an enemy soldier on the battlefield or the trust held between friends. One realizes, as Eddie did, that every individual is just a strand in a web, a drop in a pool of water, and when one strand is plucked or the surface disturbed, the ripple is felt by those closest. Albom, Mitch. The Five People You Meet in Heaven. New York: Hyperion, 2003. Print.

Database Management System

Dinky Hire firm is a small family business that stocks general equipment such as garden tools, car maintenance tools etc. For hiring to its customers. A database system is required to simplify management of the business and to provide some financial information and maintaining stocks. Equipment's are classified under various categories.Equipment's are of different brands within each category. Brands are varies in their prices and obtained from various suppliers. The known categories are: a) Gardening Equipment d) Decorating Equipment g) Heating and Lighting b) Building Equipment e) Car Maintenance h) Miscellaneous c) Access Equipment f) Power Tools Prices of equipment offered by the various suppliers as well as the delivery time for that equipment must be kept in the DB. The firm arranges for business customers only, a 24-hour support to replace any Rosen or faulty equipment that on hire.Upon receiving a customer complain, an immediate delivery will be arranged to replace the faulty equipment provided that it is in stock. Otherwise, a refund for the full charged amount will be administered. Private customers though, in similar cases, must bring the faulty equipment(s) themselves and replace them with working ones or get a full refund if there isn't any available in stock. Business customers are given various membership categories for discount purposes. These are silver, gold and diamond memberships.Silver members get 10%; Gold members get 25% and Diamond members get 40%. Hiring equipment's for private customers are restricted to those who live within 5 miles radius from their address. This distance from the private customer address is measured on map on the wall and the information stored on the customer record the first time the hire equipment's. No such restriction exists for business customers. Requirements: The following sections specify the requirements of the system. The computer is to be used when a customer visits the company to hire equipment's.At this time the following processing is necessary for each transaction: ; If not already known (I. E. Not previously entered into the DB), the customer's details are recorded. ; The equipment to be hired, with expected return date, is recorded. ; The equipment stock as recorded in the database is updated automatically. When business customers' call for support to replace any broken or faulty equipment's on hire, a log must be made in the DB and whether replacement equipment is arranged and delivered or a full refund is given.When the equipment is returned, the following processing is required: ; The actual return date is entered. ; An invoice is printed which shows the item borrowed and calculates the total cost including VAT. The cost should be based on a rate for one day plus a rate for each additional day. The daily rate varies between weekdays and weekend days. ; The stock figures are adjusted. ; Business customer discounts will be calculated according to the membership category, whil e no discount is given to private customers. 2. 3. 4. Design and create a database to the above scenario.State any assumptions made (if any). Map the diagram in to Relational Schema and Proof your answer is normalized up to BC. Create the Database using Myself. Final report should contain: 0 Assumptions 0 Entity Relationship Diagram 0 Relational Schema 0 Proof of Normalization 0 Myself commands which you have used to create the database Assignment Background A Database Management System (DB'S) is a set of programs that enables you to store, modify, and extract information from a database, it also provides users with tools to add, delete, access, modify, and analyze data stored in one location.A group can access the data by using query and reporting tools that are part of the DB'S or by using application programs specifically written to access the data. Assignment Requirements 1 . The final document should be Professional and systematic computerized document. 2. It is essential to ha ve References (if any). 3. Assignment should be word-processed and should be spiral bound. 4. The page after the Cover page should be as the assignment marking scheme (Attachment No 001). 5. Submit the softwood of the assignment along with the bound hard copy. Written Assignment Format:To receive full credit, assignments should maintain the following format: 0 Font: Caliber, Size: apt. 0 Spacing: standard. 0 File type (for electronic submission by prior arrangement): MS Word (â€Å". Doc† only) 0 Name/headers/footers on each page. Page number on each page. Cover page/ Contains page. Rules and Regulation of the Assignment 1 . Assignments will NOT be accepted after the last date of acceptance under any circumstance. Database Management System BABCOCK UNIVERSITY ILISHAN REMO OGUN STATE PROJECT PROPOSAL IN PARTIAL FULFILLMENT OF THE COURSE SOFTWARE ENGINEERING COMPUTER SCIENCE ON HOTEL MANAGEMENT SYSTEM GROUP 8 PROJECT MEMBERS: 1. XXXXXXX 2. XXXXXXXXXXX 3. XXXXXXXXXXXX 4. XXXXXXXXXX 5. OBRUTSE ONAJITE 09/1635 6. OKOROSOBO TEMITOPE 7. OLAJIDE SEGUN 8. XXXXXXXXXX 9. XXXXXXXX 10. XXXXXXXXXX PROJECT MANAGER: MRS AYITE 1. INTRODUCTION A. BACKGROUND ‘Online Alumni System' An Alumni Management System is a system that helps in keeping the records of the past students in which that it can be sorted by the year or by their major.Alumni management system is implemented in various schools around the globe, so it can help the student to get together when there is the need to get together, maybe for a get together Dinner and so on. B. SCOPE /OVERVIEW The Online alumni system is designed to maintain the details of the past student, so when the school wants to check the year a student graduated for some unforeseen circumstances. Usin g this project, the administrator registers each past student into the directory and gives them their username and password so they can login and update their profile. The Alumni Management System provides following features. Members Directory * Online photo gallery * Comment posting facility C. STATEMENT OF PROBLEM The aim of the software is to develop a software that helps the university to keep good record of their old students, in order to refer to them when necessary, even on occasions where they want to make a year book for the graduating class or something. D. PROJECT OBJECTIVES OBJECTIVE: The central objective of this project is to provide facility for record system for the university committee. In previous system (i. e. Manual System), the student has to queue up to register his/her name in the alumni register on paper.Database Management System and DataThis was the fully time consuming, expensive etc. Through this product, he can update his database maybe when he is marrie d and he wants to change his status to married and so on. 2. SYSTEM ANALYSIS System analysis is the process of gathering and interpreting facts, diagnosing problems and using the facts to improve the system. System analysis specifies what the system should do. A system is a set of components that interact to accomplish some purpose. * Identifying the drawback of the existing system * Identify the need for conversion * Perform feasibility study * Identify hardware, software and database requirements Create a system definition that forms the foundation for subsequent work A. SYSTEM STUDY Overview of the Existing System In the existing system user can face so much problems. They have to waist so much time for the registering. This is the time consuming task. Sometimes user is very tired then they face the so much problem. Sometimes user feel the laziness, this is also failure for the existing system. B. FEASIBILITY STUDY The feasibility of a project can be ascertained in terms of techn ical factors, economic factors, or both. A feasibility study is documented with a report showing all the ramifications of the project.Technical Feasibility Technical feasibility refers to the ability of the process to take advantage of the current state of the technology in pursuing further improvement. The technical capability of the personnel as well as the capability of the available technology should be considered. Technology transfer between geographical areas and cultures needs to be analyzed to understand productivity loss (or gain) due to differences (see Cultural Feasibility). Since we are using PHP 5, Tomcat 6. 0 and so on technically our project is feasible. Economic FeasibilityThis involves the feasibility of the proposed project to generate economic benefits. A benefit-cost analysis and a breakeven analysis are important aspects of evaluating the economic feasibility of new industrial projects. The tangible and intangible aspects of a project should be translated into e conomic terms to facilitate a consistent basis for evaluation. Cultural Feasibility Cultural feasibility deals with the compatibility of the proposed project with the cultural setup of the project environment. In labor-intensive projects, planned functions must be integrated with the local cultural practices and beliefs.For example, religious beliefs may influence what an individual is willing to do or not do. Social Feasibility Social feasibility addresses the influences that a proposed project may have on the social system in the project environment. The ambient social structure may be such that certain categories of workers may be in short supply or nonexistent. The effect of the Project on the social status of the project participants must be assessed to ensure compatibility. It should be recognized that workers in certain industries may have certain status symbols within the society. Scope of Feasibility AnalysisIn general terms, the elements of a feasibility analysis for a pro ject should cover the following: I. Need Analysis This indicates recognition of a need for the project. The need may affect the organization itself, another organization, the public, or the government. A preliminary study is then conducted to confirm and evaluate the need. A proposal of how the need may be satisfied is then made. Relevant questions that should be asked include: * Is the need significant enough to justify the proposed project? * Will the need still exist by the time the project is completed? * What are the alternate means of satisfying the need? What are the economic, social, environmental, and political impacts of the need? II. Process Work This is the preliminary analysis done to determine what will be required to satisfy the need. The work may be performed by a consultant who is an expert in the project field. The preliminary study often involves system models or prototypes. For technology-oriented projects, artist's conception and scaled-down models may be used f or illustrating the general characteristics of a process. A simulation of the proposed system can be carried out to predict the outcome before the actual project starts. III. Engineering & DesignThis involves a detailed technical study of the proposed project. Written quotations are obtained from suppliers and subcontractors as needed. Technology capabilities are evaluated as needed. Product design, if needed, should be done at this time. IV. Cost Estimate This involves estimating project cost to an acceptable level of accuracy. Levels of around -5% to +15% are common at this level of a project plan. Both the initial and operating costs are included in the cost estimation. Estimates of capital investment and of recurring and nonrecurring costs should also be contained in the cost estimate document.Sensitivity analysis can be carried out on the estimated cost values to see how sensitive the project plan is to the estimated cost values. V. Financial Analysis This involves an analysis of the cash flow profile of the project. The analysis should consider rates of return, inflation, sources of capital, payback periods, breakeven point, residual values, and sensitivity. This is a critical analysis since it determines whether or not and when funds will be available to the project. The project cash flow profile helps to support the economic and financial feasibility of the project. VI. Project ImpactsThis portion of the feasibility study provides an assessment of the impact on the proposed project. Environmental, social, cultural, political, and economic impacts may be some of the factors that will determine how a project is perceived by the public. The value added potential of the project should also be assessed. A value added tax may be assessed based on the price of a product and the cost of the raw material used in making the product. The tax so collected may be viewed as a contribution to government coffers. Conclusions and Recommendations The feasibility study s hould end with the overall outcome of the project analysis.This may indicate an endorsement or disapproval of the project. Recommendations on what should be done should be included in this section of the feasibility report. 3. SYSTEM DESIGN System design provides the understanding and procedural details necessary for implementing the system recommended in the system study. Emphasis is on translating the performance requirements into design specifications. The design phase is a transition from a user – oriented document (System proposal) to a documented oriented to the programmers or database personnel. A. GRAPHICAL REPRESENTATION I.Entity Relationship Diagram It is clear that the physical objects from the previous section the administrator, rooms, customer all correspond to entities in the Entity-Relationship model, and the operations to be done on those entities. Date of Birth Date of Birth SEX SEX NAME NAME Student Student Email Email Address Address IS A IS A Alumnus Alumn us IS A IS A GRADUATION YEAR GRADUATION YEAR GRADUATE STUDENT GRADUATE STUDENT POSTGRADUATE POSTGRADUATE COURSE COURSE DEGREE PROGRAMME DEGREE PROGRAMME COMPUTING TOOLS A. METHODOLOGIES B. PROGRAMMING LANGUAGES TOOLS USED FOR DEVELOPING: Language -> PHPDatabase -> My SQL Web Server -> APACHE TOMCAT 6. 0 IDE -> NETBEANS Programming language choice affects the productivity and code quality in several ways. Programmers working with high level language achieve better productivity and quality than those working with low level language, because former is more expensive in nature. We have used HTML, PHP scripting languages for the coding as we have to make the software and these languages provide great compatibility and flexibility. Overview of Programming Languages Overview of PHP The PHP technology will be used to interface HTML.The PHP technology provides a seamless connection and presents an easy to use, PHP-like programming constructs that can be scripted within HTML files. Hypertext preprocessor is a technology for developing web pages that include dynamic content. A PHP page contains standard markup language elements, such as HTML tags, just like a regular web page. A PHP page also contains special PHP elements that allow the server to insert dynamic content in the web page. ADVANTAGES OF PHP 1. PHP supports both scripting and element-based dynamic content. 2. Allows developing custom tag libraries. . PHP pages are precompiled for efficient server processing. 4. PHP pages can be used in combination with servlets that handle the business logic. 5. High Security. . 6. High Quality tool supports. 7. Write Once, Run Everywhere. 8. PHP is vender Neutral Overview of Java Script Java script is a general purpose, prototype based, object oriented scripting language developed jointly by sun and Netscape and is meant for the WWW. Java script borrows most of its syntax from java but also inherits from awk and perl, with some indirect influence from self in its object prot otype system.Java Script is almost as easy to learn as HTML and it can be included directly in HTML documents. Java Script was developed independently of java. Java script is a high level scripting language that does not depend on or expose particular machine representations or operating system services. FEATURES OF JAVA SCRIPT Java script is embedded into HTML documents and is executed with in them. Java script is browser dependent. JavaScript is an interpreted language that can be interpreted by the browser at run time. Java script is loosely typed language. Java script is an object-based language.Java script is an Event-Driven language and supports event handlers to specify the functionality of a button. The Struts framework provides the flexibility to develop the much less coupled applications. It generalizes and strictly implements MVC-model View Controller Architecture. That is the basic need of our architecture. Overview of Apache Tomcat Apache Tomcat is a servlet container d eveloped by the Apache Software Foundation (ASF). Tomcat implements the Java Servlet and the Java Server Pages (JSP) specifications from Sun Microsystems, and provides a â€Å"pure Java† HTTP web server environment for Java code to run.Tomcat should not be confused with the Apache web server, which is a C implementation of an HTTP web server; these two web servers are not bundled together. Apache Tomcat includes tools for configuration and management, but can also be configured by editing XML configuration files. Overview of MySQL MySQL is a multithreaded, multi-user SQL database management system (DBMS) which has, according to MySQL AB, more than 10 million installations. MySQL is owned and sponsored by a single for-profit firm, the Swedish company MySQL AB, which holds the copyright to most codebase. Libraries for ccessing MySQL databases are available in all major programming languages with language-specific APIs. In addition, an ODBC interface called MyODBC allows additio nal programming languages that support the ODBC interface to communicate with a MySQL database, such as ASP or ColdFusion. The MySQL server and official libraries are mostly implemented in ANSI C. C. PLATFORM I. HARDWARE SPECIFICATIONS Processor: Pentium III or higher RAM: 128 MB or More Hard Disk: 20 GB or More Modem: 56KBPS / LAN Card II. SOFTWARE SPECIFICATIONS Operating System: Windows XP, VISTA 7. Web Server: ApacheFront End: JSP Back End: MySQL Scripts: JavaScript Language: JAVA III. User Interface Requirements The user of the proposed system requires that the developed software should be user friendly, have security access, and ensure the privacy of the administrator and produce results in timely manner. The users are not frequently exposed to the on-line hotel management, so the system interface to the user must be simple and understandable. The web pages must be user-friendly and must be in an easy-to-use style. The user must be able to easily switch among various I/O scree ns.The product is well designed so that it can be used easily by layman and also the users who are novices to the system. The system should be designed in such a way that only authorized users should be allowed to login to the system. The user interface should be as interactive as possible. A user-friendly interface must be provided so that the user can easily interact with the system and comprehend things in a quicker and easier way. The system must provide reliable and up-to-date information. The application should be efficient so that the user does not spend much time in training.Consistency will increase the confidence of the user in the reliability of the application. The user must be limited with a small set of operations to achieve the result. The application should be visually and conceptually clear. The interface should accommodate user mistakes easily and fast. It should minimize the errors and should handle them peacefully. IV. Database Requirements The database should be designed in such a way that it enhances the efficient storage, retrieval and manipulation of all the information associated. For instance all general information regarding an item attribute should be stored in a particular table.The concerned users should have the facility to query to the database and supply the basic information easily. Security mechanisms should be provided so that no confidential details should be accessible to unauthorized persons. The database should be organized in such a way that it helps in preparing various essential summaries needed for users. V. Functional Requirements The various functional requirements of the system can be summarized as: 1. A home page that is user friendly and ambiguous. 2. Administrator Login Facility 3. Links to other related sites. 4.Ability of Administrator to perform any tasks which you can see in my snapshots (below) and in my running project. 5. A login page for alumnus to create a new user if not registered VI. Non-Functional Requirements Non-functional requirements define the system properties and constraints that arise through user needs, because of the budgeted constraints or organizational policies, or because of the need for interoperability with other software or due to the external factors such as safety regulations privacy registrations and so on. VII. Other Requirements and ConstraintsPerformance Requirements * The database should be centralized and secure. * The system should be user friendly and easily accessible * The system must be reliable. Design Requirements The main objectives of input design are: * Controlling the amount of input * Keeping the process simple, avoiding errors. * The best thing in the input design is to achieve all the objectives mentioned in the simplest manner possible. The main objectives of output design are: * Identifying the specific outputs. * Creating reports for displaying and storing information. 4. MILESTONES A.TIMELINES I. DISTRIBUTION OF TASKS AND SUBTASKS II . TEAM MEMBERS RESPONSIBILITIES Each project member has been given a role to perform which will make the project work go smoothly. | | | | | | | | | | | | III. PROPOSED TIMEFRAME FOR EACH TASK AS ASSIGNED B. DEADLINES FOR EACH TASK AND MODULES C. PROPOSED DUE DATE 5. POSSIBLE TEST CASES AND PLANS 6. LIMITATIONS The Hotel Management System can be used for any organization that may require detailed information at one time or the other. This application covers a relatively large scope more than is highlighted in this project work.There is always room for improvement depending on the intending area of application. For the purpose of this project, however, we will use Arzu Hotels as a set case. The limitations of this project are: * Unavailability of sufficient time due to tight academic schedule. * Lack of internet connection to perform necessary research Despite these limitations, we will be able to design a functional Hotel Management System. 7. CONCLUSION From a proper analysis of po sitive points and constraints on the component, it can be safely concluded that the product is a highly efficient GUI based component.This application is working properly and meeting to all user requirements. This component can be easily plugged in many other systems. 8. APPENDIX I. Programming Programming is not only a creative activity but also an intellectually rigorous discipline. It is the part where the design is actually translated into the machine readable form which is called program. II. Programming Principles The main activity of coding phase is to translate design into code. If we translate the structure of the design properly, we will have structured programs. A structured program doesn’t just â€Å"happen†.It is the end product of series of efforts that try to understand the problem and develop a structured, understandable solution plan. It is all impossible to write a good structured program based on unstructured poor design . The coding phase affects bo th testing and maintenance , profoundly the time spent in coding is small percentage of the total software cost, while testing and maintenance consume the major percentage . The goal of coding phase is not to simplify the job of the tester and maintainer. III. Programming style A well written program is more easily read and understood both by the author and by others who work that program.A good Programming style is characterized by the following: * Simplicity * Readability * Good documentation * Changeability * Predictability * Good Structure IV. Selection of Coding Language All the programs coded should be based on a standard which can tend to the needs of all readers, i. e. it should provide degree of predictability in programs of a common type. There are many aspects to what the programs must do so to enable the different users to comfortably work on it. For example the program should: * Be corrective of the solution * Have maximum speed of execution * Be comprehensive and east to maintain Database Management System BABCOCK UNIVERSITY ILISHAN REMO OGUN STATE PROJECT PROPOSAL IN PARTIAL FULFILLMENT OF THE COURSE SOFTWARE ENGINEERING COMPUTER SCIENCE ON HOTEL MANAGEMENT SYSTEM GROUP 8 PROJECT MEMBERS: 1. XXXXXXX 2. XXXXXXXXXXX 3. XXXXXXXXXXXX 4. XXXXXXXXXX 5. OBRUTSE ONAJITE 09/1635 6. OKOROSOBO TEMITOPE 7. OLAJIDE SEGUN 8. XXXXXXXXXX 9. XXXXXXXX 10. XXXXXXXXXX PROJECT MANAGER: MRS AYITE 1. INTRODUCTION A. BACKGROUND ‘Online Alumni System' An Alumni Management System is a system that helps in keeping the records of the past students in which that it can be sorted by the year or by their major.Alumni management system is implemented in various schools around the globe, so it can help the student to get together when there is the need to get together, maybe for a get together Dinner and so on. B. SCOPE /OVERVIEW The Online alumni system is designed to maintain the details of the past student, so when the school wants to check the year a student graduated for some unforeseen circumstances. Usin g this project, the administrator registers each past student into the directory and gives them their username and password so they can login and update their profile. The Alumni Management System provides following features. Members Directory * Online photo gallery * Comment posting facility C. STATEMENT OF PROBLEM The aim of the software is to develop a software that helps the university to keep good record of their old students, in order to refer to them when necessary, even on occasions where they want to make a year book for the graduating class or something. D. PROJECT OBJECTIVES OBJECTIVE: The central objective of this project is to provide facility for record system for the university committee. In previous system (i. e. Manual System), the student has to queue up to register his/her name in the alumni register on paper.Database Management System and DataThis was the fully time consuming, expensive etc. Through this product, he can update his database maybe when he is marrie d and he wants to change his status to married and so on. 2. SYSTEM ANALYSIS System analysis is the process of gathering and interpreting facts, diagnosing problems and using the facts to improve the system. System analysis specifies what the system should do. A system is a set of components that interact to accomplish some purpose. * Identifying the drawback of the existing system * Identify the need for conversion * Perform feasibility study * Identify hardware, software and database requirements Create a system definition that forms the foundation for subsequent work A. SYSTEM STUDY Overview of the Existing System In the existing system user can face so much problems. They have to waist so much time for the registering. This is the time consuming task. Sometimes user is very tired then they face the so much problem. Sometimes user feel the laziness, this is also failure for the existing system. B. FEASIBILITY STUDY The feasibility of a project can be ascertained in terms of techn ical factors, economic factors, or both. A feasibility study is documented with a report showing all the ramifications of the project.Technical Feasibility Technical feasibility refers to the ability of the process to take advantage of the current state of the technology in pursuing further improvement. The technical capability of the personnel as well as the capability of the available technology should be considered. Technology transfer between geographical areas and cultures needs to be analyzed to understand productivity loss (or gain) due to differences (see Cultural Feasibility). Since we are using PHP 5, Tomcat 6. 0 and so on technically our project is feasible. Economic FeasibilityThis involves the feasibility of the proposed project to generate economic benefits. A benefit-cost analysis and a breakeven analysis are important aspects of evaluating the economic feasibility of new industrial projects. The tangible and intangible aspects of a project should be translated into e conomic terms to facilitate a consistent basis for evaluation. Cultural Feasibility Cultural feasibility deals with the compatibility of the proposed project with the cultural setup of the project environment. In labor-intensive projects, planned functions must be integrated with the local cultural practices and beliefs.For example, religious beliefs may influence what an individual is willing to do or not do. Social Feasibility Social feasibility addresses the influences that a proposed project may have on the social system in the project environment. The ambient social structure may be such that certain categories of workers may be in short supply or nonexistent. The effect of the Project on the social status of the project participants must be assessed to ensure compatibility. It should be recognized that workers in certain industries may have certain status symbols within the society. Scope of Feasibility AnalysisIn general terms, the elements of a feasibility analysis for a pro ject should cover the following: I. Need Analysis This indicates recognition of a need for the project. The need may affect the organization itself, another organization, the public, or the government. A preliminary study is then conducted to confirm and evaluate the need. A proposal of how the need may be satisfied is then made. Relevant questions that should be asked include: * Is the need significant enough to justify the proposed project? * Will the need still exist by the time the project is completed? * What are the alternate means of satisfying the need? What are the economic, social, environmental, and political impacts of the need? II. Process Work This is the preliminary analysis done to determine what will be required to satisfy the need. The work may be performed by a consultant who is an expert in the project field. The preliminary study often involves system models or prototypes. For technology-oriented projects, artist's conception and scaled-down models may be used f or illustrating the general characteristics of a process. A simulation of the proposed system can be carried out to predict the outcome before the actual project starts. III. Engineering & DesignThis involves a detailed technical study of the proposed project. Written quotations are obtained from suppliers and subcontractors as needed. Technology capabilities are evaluated as needed. Product design, if needed, should be done at this time. IV. Cost Estimate This involves estimating project cost to an acceptable level of accuracy. Levels of around -5% to +15% are common at this level of a project plan. Both the initial and operating costs are included in the cost estimation. Estimates of capital investment and of recurring and nonrecurring costs should also be contained in the cost estimate document.Sensitivity analysis can be carried out on the estimated cost values to see how sensitive the project plan is to the estimated cost values. V. Financial Analysis This involves an analysis of the cash flow profile of the project. The analysis should consider rates of return, inflation, sources of capital, payback periods, breakeven point, residual values, and sensitivity. This is a critical analysis since it determines whether or not and when funds will be available to the project. The project cash flow profile helps to support the economic and financial feasibility of the project. VI. Project ImpactsThis portion of the feasibility study provides an assessment of the impact on the proposed project. Environmental, social, cultural, political, and economic impacts may be some of the factors that will determine how a project is perceived by the public. The value added potential of the project should also be assessed. A value added tax may be assessed based on the price of a product and the cost of the raw material used in making the product. The tax so collected may be viewed as a contribution to government coffers. Conclusions and Recommendations The feasibility study s hould end with the overall outcome of the project analysis.This may indicate an endorsement or disapproval of the project. Recommendations on what should be done should be included in this section of the feasibility report. 3. SYSTEM DESIGN System design provides the understanding and procedural details necessary for implementing the system recommended in the system study. Emphasis is on translating the performance requirements into design specifications. The design phase is a transition from a user – oriented document (System proposal) to a documented oriented to the programmers or database personnel. A. GRAPHICAL REPRESENTATION I.Entity Relationship Diagram It is clear that the physical objects from the previous section the administrator, rooms, customer all correspond to entities in the Entity-Relationship model, and the operations to be done on those entities. Date of Birth Date of Birth SEX SEX NAME NAME Student Student Email Email Address Address IS A IS A Alumnus Alumn us IS A IS A GRADUATION YEAR GRADUATION YEAR GRADUATE STUDENT GRADUATE STUDENT POSTGRADUATE POSTGRADUATE COURSE COURSE DEGREE PROGRAMME DEGREE PROGRAMME COMPUTING TOOLS A. METHODOLOGIES B. PROGRAMMING LANGUAGES TOOLS USED FOR DEVELOPING: Language -> PHPDatabase -> My SQL Web Server -> APACHE TOMCAT 6. 0 IDE -> NETBEANS Programming language choice affects the productivity and code quality in several ways. Programmers working with high level language achieve better productivity and quality than those working with low level language, because former is more expensive in nature. We have used HTML, PHP scripting languages for the coding as we have to make the software and these languages provide great compatibility and flexibility. Overview of Programming Languages Overview of PHP The PHP technology will be used to interface HTML.The PHP technology provides a seamless connection and presents an easy to use, PHP-like programming constructs that can be scripted within HTML files. Hypertext preprocessor is a technology for developing web pages that include dynamic content. A PHP page contains standard markup language elements, such as HTML tags, just like a regular web page. A PHP page also contains special PHP elements that allow the server to insert dynamic content in the web page. ADVANTAGES OF PHP 1. PHP supports both scripting and element-based dynamic content. 2. Allows developing custom tag libraries. . PHP pages are precompiled for efficient server processing. 4. PHP pages can be used in combination with servlets that handle the business logic. 5. High Security. . 6. High Quality tool supports. 7. Write Once, Run Everywhere. 8. PHP is vender Neutral Overview of Java Script Java script is a general purpose, prototype based, object oriented scripting language developed jointly by sun and Netscape and is meant for the WWW. Java script borrows most of its syntax from java but also inherits from awk and perl, with some indirect influence from self in its object prot otype system.Java Script is almost as easy to learn as HTML and it can be included directly in HTML documents. Java Script was developed independently of java. Java script is a high level scripting language that does not depend on or expose particular machine representations or operating system services. FEATURES OF JAVA SCRIPT Java script is embedded into HTML documents and is executed with in them. Java script is browser dependent. JavaScript is an interpreted language that can be interpreted by the browser at run time. Java script is loosely typed language. Java script is an object-based language.Java script is an Event-Driven language and supports event handlers to specify the functionality of a button. The Struts framework provides the flexibility to develop the much less coupled applications. It generalizes and strictly implements MVC-model View Controller Architecture. That is the basic need of our architecture. Overview of Apache Tomcat Apache Tomcat is a servlet container d eveloped by the Apache Software Foundation (ASF). Tomcat implements the Java Servlet and the Java Server Pages (JSP) specifications from Sun Microsystems, and provides a â€Å"pure Java† HTTP web server environment for Java code to run.Tomcat should not be confused with the Apache web server, which is a C implementation of an HTTP web server; these two web servers are not bundled together. Apache Tomcat includes tools for configuration and management, but can also be configured by editing XML configuration files. Overview of MySQL MySQL is a multithreaded, multi-user SQL database management system (DBMS) which has, according to MySQL AB, more than 10 million installations. MySQL is owned and sponsored by a single for-profit firm, the Swedish company MySQL AB, which holds the copyright to most codebase. Libraries for ccessing MySQL databases are available in all major programming languages with language-specific APIs. In addition, an ODBC interface called MyODBC allows additio nal programming languages that support the ODBC interface to communicate with a MySQL database, such as ASP or ColdFusion. The MySQL server and official libraries are mostly implemented in ANSI C. C. PLATFORM I. HARDWARE SPECIFICATIONS Processor: Pentium III or higher RAM: 128 MB or More Hard Disk: 20 GB or More Modem: 56KBPS / LAN Card II. SOFTWARE SPECIFICATIONS Operating System: Windows XP, VISTA 7. Web Server: ApacheFront End: JSP Back End: MySQL Scripts: JavaScript Language: JAVA III. User Interface Requirements The user of the proposed system requires that the developed software should be user friendly, have security access, and ensure the privacy of the administrator and produce results in timely manner. The users are not frequently exposed to the on-line hotel management, so the system interface to the user must be simple and understandable. The web pages must be user-friendly and must be in an easy-to-use style. The user must be able to easily switch among various I/O scree ns.The product is well designed so that it can be used easily by layman and also the users who are novices to the system. The system should be designed in such a way that only authorized users should be allowed to login to the system. The user interface should be as interactive as possible. A user-friendly interface must be provided so that the user can easily interact with the system and comprehend things in a quicker and easier way. The system must provide reliable and up-to-date information. The application should be efficient so that the user does not spend much time in training.Consistency will increase the confidence of the user in the reliability of the application. The user must be limited with a small set of operations to achieve the result. The application should be visually and conceptually clear. The interface should accommodate user mistakes easily and fast. It should minimize the errors and should handle them peacefully. IV. Database Requirements The database should be designed in such a way that it enhances the efficient storage, retrieval and manipulation of all the information associated. For instance all general information regarding an item attribute should be stored in a particular table.The concerned users should have the facility to query to the database and supply the basic information easily. Security mechanisms should be provided so that no confidential details should be accessible to unauthorized persons. The database should be organized in such a way that it helps in preparing various essential summaries needed for users. V. Functional Requirements The various functional requirements of the system can be summarized as: 1. A home page that is user friendly and ambiguous. 2. Administrator Login Facility 3. Links to other related sites. 4.Ability of Administrator to perform any tasks which you can see in my snapshots (below) and in my running project. 5. A login page for alumnus to create a new user if not registered VI. Non-Functional Requirements Non-functional requirements define the system properties and constraints that arise through user needs, because of the budgeted constraints or organizational policies, or because of the need for interoperability with other software or due to the external factors such as safety regulations privacy registrations and so on. VII. Other Requirements and ConstraintsPerformance Requirements * The database should be centralized and secure. * The system should be user friendly and easily accessible * The system must be reliable. Design Requirements The main objectives of input design are: * Controlling the amount of input * Keeping the process simple, avoiding errors. * The best thing in the input design is to achieve all the objectives mentioned in the simplest manner possible. The main objectives of output design are: * Identifying the specific outputs. * Creating reports for displaying and storing information. 4. MILESTONES A.TIMELINES I. DISTRIBUTION OF TASKS AND SUBTASKS II . TEAM MEMBERS RESPONSIBILITIES Each project member has been given a role to perform which will make the project work go smoothly. | | | | | | | | | | | | III. PROPOSED TIMEFRAME FOR EACH TASK AS ASSIGNED B. DEADLINES FOR EACH TASK AND MODULES C. PROPOSED DUE DATE 5. POSSIBLE TEST CASES AND PLANS 6. LIMITATIONS The Hotel Management System can be used for any organization that may require detailed information at one time or the other. This application covers a relatively large scope more than is highlighted in this project work.There is always room for improvement depending on the intending area of application. For the purpose of this project, however, we will use Arzu Hotels as a set case. The limitations of this project are: * Unavailability of sufficient time due to tight academic schedule. * Lack of internet connection to perform necessary research Despite these limitations, we will be able to design a functional Hotel Management System. 7. CONCLUSION From a proper analysis of po sitive points and constraints on the component, it can be safely concluded that the product is a highly efficient GUI based component.This application is working properly and meeting to all user requirements. This component can be easily plugged in many other systems. 8. APPENDIX I. Programming Programming is not only a creative activity but also an intellectually rigorous discipline. It is the part where the design is actually translated into the machine readable form which is called program. II. Programming Principles The main activity of coding phase is to translate design into code. If we translate the structure of the design properly, we will have structured programs. A structured program doesn’t just â€Å"happen†.It is the end product of series of efforts that try to understand the problem and develop a structured, understandable solution plan. It is all impossible to write a good structured program based on unstructured poor design . The coding phase affects bo th testing and maintenance , profoundly the time spent in coding is small percentage of the total software cost, while testing and maintenance consume the major percentage . The goal of coding phase is not to simplify the job of the tester and maintainer. III. Programming style A well written program is more easily read and understood both by the author and by others who work that program.A good Programming style is characterized by the following: * Simplicity * Readability * Good documentation * Changeability * Predictability * Good Structure IV. Selection of Coding Language All the programs coded should be based on a standard which can tend to the needs of all readers, i. e. it should provide degree of predictability in programs of a common type. There are many aspects to what the programs must do so to enable the different users to comfortably work on it. For example the program should: * Be corrective of the solution * Have maximum speed of execution * Be comprehensive and east to maintain

Ecology of the Box Jelly fish (can change it if writer desires ) Essay

Ecology of the Box Jelly fish (can change it if writer desires ) - Essay Example And as the temperature in our waters heats-up, it harms and kills the algae which serve as food to other living organism in the ocean. When that happens, it inadvertently destroys the ecosystem and balance in the ocean (252-253). There have been several causes of global warming. The most obvious is the carbon dioxide emission from our use of fossil fuels like gas, oil and coal has been the primary culprit of global warming as it traps heat to remain in our atmosphere that makes it warmer. Much of carbon dioxide emission comes from our energy use ranging from the electricity that lights our houses to the to the carbon emission of our cars and industrial plants. Another is population explosion as people now have higher life expectancy resulting to an increased in population that burdens the planet as too many people emits carbon dioxide that is beyond her regenerative capacity. Everybody agrees that the environment has to be protected and that the continuous warming of our atmosphere w ill have a serious consequence on the environment; weather pattern changes, agricultural yields become unpredictable and disrupt the ecosystem of our waters. Yet, this has to be balanced with the energy needs of both developed and developing countries. For any serious effort to reduce greenhouse emission requires the cooperation and commitment of everybody to make it workable. Sustaining the climatic conditions which are necessary to sustain life on the planet and the mitigation of the global warming caused by greenhouse gases build-up in the Earth’s atmosphere and oceans must be done to enable the survivability of all forms of life and its environment. Thus, Massawe conducted a research to formulate a theoretical basis for the â€Å"development of empirical model of global warming fit on the main global determinants of human activities caused greenhouse gases build-up in the atmosphere to enable the identification of global regulations which could be administered to control global warming and the resultant climate change† (254). It was aimed that with such global warming control, it would be able to mitigate climate change that would achieve â€Å"greenhouse gases emission and build-up in the Earth’s atmosphere and oceans based on the generation and deployment of global solutions† (254). Massawe identified the determinants of global warming as the population estimate, birth rate, death rate, hydropower consumption, geothermal power consumption, nuclear power consumption, solar power consumption, wind power consumption, bio-fuel consumption, coal consumption, oil consumption, gas consumption, defense spending, GDP, greenhouse gases emission estimate and forest coverage estimate. He concluded that the solution to the mitigation of global warming is possible by replacing the determinants in individual countries with the global determinants. In effect, the research suggested that global warming and climate change cannot be solved by in dividual countries and that it can only be addressed by international cooperation with all countries, both developed and developing are in cooperation to address the determinants of global warming. How the article increased my knowledge or changed my point of view on the topic. The study was an eye opener for me and in a way, enhanced my understanding about ecology

ELITES AND DEVELOPMENT IN CIS COUNTRIES Essay Example | Topics and Well Written Essays - 4000 words

ELITES AND DEVELOPMENT IN CIS COUNTRIES - Essay Example In fact the changes perceived in the structure of the various political elite groups in this region which was stimulated by the changes brought in by democracy, did not essentially lead to the renewal of the political elite, primarily in the nature and manner of their conscription and commissioning. The fragile nature of the democratic institutions were revealed when the actors in the new political order that came into power during the first democratic elections, instead of aiming at creating a better socio-economic future for their respective countries, used the new positions for amassing personal wealth and strengthening their personal power. The result of the plans adopted for orienting all governmental organizations towards a system of Presidential domination that would democratically control the executive, legislative and judiciary, failed. In its place, there was the rapid emergence of a group of hybrid political elites, where the authoritarian power was well in vogue, albeit b ehind the facade of democratic institutions. ... Other international and regional bodies that provide corruption survey figures based on perceptions and experience in this sub-region, present a very analogous picture that portrays a ‘systemic’ form of corruption, having disastrous effects on the lives of the common citizens of these states. A study of these reports make it very clear that the political elites of these regions are creating a hindrance in the developmental strategy of these regions, and in order to initiate growth and development in the CIS countries one must make a thorough study of the elites that run these countries. One must take heed of their perception of national development and personal power, and also comprehend how the elites analyze the role of various international development bodies like ‘The European Bank of Reconstruction and Development’ (EBRD). The research project primarily aims to study these issues in order to identify in which CIS countries the political elites are deter mined to act in a manner that has positive economic and social implications, and thereby aiming to create a favourable climate for investments. Objectives The target of this research paper is to propose various recommendations that are based on strong and logical evidences, for the increase in the EBRD’s investments within the CIS countries. Since this international developmental body is supporting a research project and providing ?5 million for investigating the role of political elites in the development of CIS countries, it necessary for the researcher to study in detail the various notions and ideals practiced by the ruling political elites that are mainly responsible

DQ # 1 Response to Classmate Research Paper Example | Topics and Well Written Essays - 250 words

DQ # 1 Response to Classmate - Research Paper Example Rita, the remaining staff nurses, and with the help of all employees on the unit can succeed in orienting and retaining the seven new graduates by first welcoming them to the unit.  In helping the new employees feel welcome, it is also important to realize that leadership and followership has a synergistic relationship and that â€Å"no change can occur without willing and committed followers† (Grossman & Valiga, 2009, p. 36). Starting a new job, especially as a new graduate nurse is very stressful. Fear and lack of confidence can sometimes overwhelm a new graduate and it is extremely important to make them feel welcome. Research suggests that when the  Ã¢â‚¬Å"staff is friendly, welcoming, open to the new graduates being there, supportive, and encouraging of their learning† can result in a successful transition from new graduate to nurse (Glynn & Sylva, 2013, p. 177). In real world, it can be seen that through creating quality relationship between leadership and followership, it is possible to orient as well as retain the new nurses. As stated by Grossman and Valiga (2009), â€Å"Leadership and followership are two separate concepts that are complementary or reciprocal, not competitive† (p. 36). People often feel apprehensive when they start a new job but when they are given a warm welcome to the unit, they quickly gain confidence which helps them to acclimatize to the environment. This is so because there would be mutual understanding among the team members which help them to easily fit in the working environment. I have witnessed this at Baptist Hospital where the pre op nurse manager displays quality leadership styles where new nurses are given the opportunity to freely interact with senior nurses in a bid to build confidence in them.   Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚   Offering encouragement and support to the new nurses and allowing them to ask questions, makes them feel comfortable and increases their confidence. It is also important to gain feedback from the new

Literature review of Analog Circuit Computer Aided Design Essay

Literature review of Analog Circuit Computer Aided Design - Essay Example The main purpose of this research of "Analog CAD" is to get the values of transistor sizes and components values like resistors and capacitances if the analog circuit specification is given. The optimization technique it adopts is geometric programming (Boyd, 2004). Till today analog circuit design automation is done for long length transistors or sub-micron transistors. Main objective of this research work is to automate circuit in deep sub-micron region. Before starting actual work on any topic it is necessary to go through literatures otherwise one may land up in a result which has already been found out by some other person.This section deals with the existing literatures related to analog circuit optimization. It outlines a summary of all the resource materials, authorial credentials, content credibility, source credibility, text credibility- Fluid integration of the source evaluation. A true literature review gives the proper sense of works that technology has achieved till dat e into that specified topic which helps one researcher to bring down his own research problem.Han Young et al. (1990) developed an analog silicon compilation system for CMOS op amps (OPASYN). The synthesis starts from a certain specification. From its database, program selects op amp topology that suits most with the given specification. Using parametric optimization the circuit then determines optimal value for its parameters. It also produces Design-Rule-Correct compact layout of the optimized op amp. Yang et al. (1995) proposed a Simulated Annealing (SA) algorithm for topology selection and sizing. In analog cells, topology choice and sizing simultaneously is efficient than normal two step mode synthesis. Basic problem with that approach is that super circuits must be worked out for each sort of analog cells. Chen et al. (2000) placed an iterative optimization idea for improving delay in digital circuit. Instead of only adjusting that gate sizes to reduce delay, they adjusted wire loads of the gates by repositioning them using geometric program. It gave better result in deep sub-micron design where the effect of interconnect delays dominates Mandal P and Visvanathan V (2001) devised an efficient technique for sizing of op amp by sequential convex optimization problem. This method then prototyped in MATLAB to apply into CMOS two stage op amp. Paper mostly focuses on long length transistor. In short channel case results did not come satisfactory due to second order effects. To overcome this, model was used that gave acceptable result.. Hershenson M et al. (2001) also worked on same topic and came out with fruitful result. There they have used 0.8 technology. Dawson et al. (2001), using geometric programming optimized the allocation of local feedback loops in a multistage amplifier. In a multistage amplifier local feedback loops effects its overall bandwidth, gain, rise time, noise and linearity. Using GP tool these problems had been solved taking into account wide variety of constraints. After that, Daems et al. (2001) came with simulation based automatic generation of signomial and posynomial models that can be used for analog design automation. These posynomial models were found to be more useful for geometric programming optimization. There, they tested the methodology with a CMOS OTA in 0.7 m technology. Hershenson M. (2002) presented a technique for the design of Analog- Digital Converter (ADC). In a predefined pipeline ADC topology she tried to get the component values and transistor sizes meeting the specification and keeping constraints like power, SNR, sampling frequency and area in convex form. Eackelaert et al. (2003) depicted a new technique to generate symbolic expressions for the performance characteristics. The technique determines the coefficients and the exponents of a posynomial template based

Personal Application Assignment Essay Example | Topics and Well Written Essays - 1000 words - 1

Personal Application Assignment - Essay Example This assignment therefore required extensive coordination and interaction with different employees working in my department and extracting information from them. For me the first part of extracting the information was easy however, to actually convince people to cooperate with me was a difficult task. This was mainly due to the fact that people realized that the new changes may be detrimental to their overall career progression as well as may render them redundant for the firm. The fear of change was therefore so strong that I started to face the resistance even before the process was completed and the changes recommended were implemented. This experience made me realize the importance of managing the people side of the change as it always requires some extra effort to actually convince people that the overall change may be in the favor of the employees as well as the organization. Looking back at that episode, I came to realize the importance of how the change can actually create the resistance even if that change is in favor of the employees in long term. What is significant also is the assumption that people always take change in negative connotations thus not fully understanding as to how this change can actually benefit them and their career. I always believed that change is the only constant for the businesses to successfully operate in the current competitive business environment. In order to successfully develop the core competencies, businesses will therefore have to adapt to the new changes and their employees shall also understand the wider consequences of being complacent and how it can affect their own careers. Though the employees realized that the changes which may took place after the process of re-engineering may be beneficial for them as the same could offer them an opportunity to further develop their skills and match them

Disease process Essay Example | Topics and Well Written Essays - 750 words

Disease process - Essay Example It has been noted that diabetes mellitus is a major cause of cardiovascular diseases (CVD) which will include congestive heart failure, coronary heart diseases, peripheral artery disease, cardiomyopathy and stroke. The risk of coronary artery diseases and congestive heart failure is relatively high in persons diagnosed with diabetes than in those without. Risk is also increased in patients who suffer from hypertension and dyslipidaemia or in those who smoke cigarettes and use alcohol. People with diabetes have frequent occurrences of hypertension which is a major risk factor for getting a cardiovascular disease. Diabetes mellitus also causes urinary incontinence which is a common problem encountered. It is a indication of primary malfunction of the urinary bladder and urethra that basically causes the patient to pass urine at the wrong place at the wrong time. It causes weakened urethra muscles that will render the patient helpless in controlling their own urine passing. Another urin ary incontinence caused by diabetes mellitus is neurogenic bladder which is also called cystopathy. It is reflected as a form of autonomic neuropathy which begins with the damage of the autonomic afferent nerves therefore leaving the motor function unbroken and undamaged but damaging the awareness of bladder fullness which will consequently result in diminished urinary regularity. It is therefore evident that diabetes disrupts the loops for regulation of micturition which will vastly affect the patient’s urinary system by causing urinary dysfunctions of different levels. Studies have also shown that patients with chronic obstructive pulmonary disease also have diabetes. It is not evident whether diabetes is a major risk factor in contracting chronic obstructive pulmonary disease but it has shown that patients who suffer from chronic obstructive pulmonary disease will be at a major risk of getting diabetes than those without. The co-existence of these two diseases will put the patient at a high risk of mortality due to inflammation and exacerbation of the chronic obstructive pulmonary disease. This is also heightened to individuals who smoke cigarettes and use alcohol. Diabetes mellitus is also a major cause of hyperglycaemia which is linked to impaired lung function therefore negatively affecting the patient’s respiratory system. Diabetes is also a major factor in integumentary system diseases. Diabetes can leave the skin of a patient predisposed to bacterial and fungal infections. It will affect blood vessels that cause the skin to appear like it has scaly rough patches of skin which usually located on the front part of the patient’s legs. Other integumentary diseases are such as atherosclerosis where the blood vessels of the patient are narrowed which will cause the skin to be hairless and also makes it appear shiny. Diabetes will also cause acanthosis nigricans which is a skin disorder that create a black or brown, dark, thick, poorly d efined, velvety hyperpigmentation of the skin which is normally found on the folds for instance in the armpits, groin area and folds of the neck. The skin darkening is also evident in the joints of the fingers and toes. Due to the lack of insulin experienced in diabetes mellitus, a patient suffering from diabetes mellitus will be at a higher risk of contracting acanthosis nigricans. Diabetes mellitus also causes damage in nerves which will create a symptom called neuropathy.

Global Business Essay Example | Topics and Well Written Essays - 3000 words

Global Business - Essay Example Introduction In the twenty first century, the companies are experiencing unprecedented global competition and economic uncertainties along with challenges of managing their social responsibilities. As the companies expand their business globally they are facing a number of challenges regarding their human resources and several other issues regarding the conduct of their businesses. Human resource management is a key issue for consolidating the business globally as well as maintains a healthy image of the company (Palthe, n.d.) According to Morrison, integration of the nations and the citizen towards a global market opens up opportunities as well as risks for large corporations (Mennen, 2010, p.2). Globalization has also led to a change in the paradigm of how business is conducted globally. The organizations have to take into account various other issues apart from their sales and production to sustain their profitability. The company’s image, participation in the stock exchang e and taking care of the social responsibilities find high priority in the company’s agendas. The three principles of sustainable development of an organization suggest profit, people, and planet. Management of this is a crucial issue for any company as efficient management of all three contributes measurably to the profits for any company. Good social behavior along with ethical corporate has made many of the global companies flourish. 77% of the executives from various corporate have confirmed that undertaking corporate social responsibility programs and good governance practices have benefitted their companies in terms of profit. Corporate Social Responsibility programs of any company have different dimensions. The company has to address the environmental issues like their carbon footprint and maintenance of local environment, have proper corporate ethics regarding employees, customers and other stakeholders and product safety. CSR as a crucial aspect of corporate manageme nt have gained importance in the recent years. Companies that have a good reputation in this regard have outperformed their counterparts that are less reputed. For a company recognitions come in various ways like the Most Admired Company List or the Corporate Citizenship List as well as a rise in profit. The image of the company and the trust it enjoys from the customer helps it develop business for a long period of time. Companies are eager to get enrolled in the Dow Jones Environmental and Social Criteria. All this is evident of the increasing consciousness among the organizations to reshape their businesses to the new trends and practices of the global businesses. The perception about the responsibility of the business towards the society in terms of human rights, labour standards, environmental concern, and attitude towards corruption has changed over the years due to globalization. This has resulted in the companies addressing the issues and challenges faced by the global busin esses. Research is being conducted everywhere and new models of businesses are being developed and incorporated by the companies (Palthe, n.d.) We shall try to investigate the role of the stock exchanges in the businesses of a company and also the issues regarding the responsible management practices especially the principles laid down by the United Nations Global Compact on responsible manag

Peculiar Institution Essay Example for Free

Peculiar Institution Essay On September 23, 1861 Mrs. E. A. Spaulding of Central Village Windham County wrote Abraham Lincoln about the Peculiar Institution or Slavery. She believed that until it â€Å"is abolished, civilization is impeded, humanity languishes and our boasted land of freedom is a practical lie. † Two prominent persons of the era, John C. Calhoun and James Henry Hammond, thought the contrary. Calhoun and Hammond were strong defenders of Slavery. In his Mudsill Speech of 1858, Hammond justified the use of slaves through the Mudsill theory. He said that in order for the upper class to be able to push the country forward, there had to be a lower class to support it. The lower class was needed to do the dirty job and the easy tasks. They were the ones with less intelligence and talent but had the energy, subservience and loyalty demanded by the job, referring to the Africans. In the North, the laborers were not paid enough. They had to work long hours and some ended up as beggars. There were many beggars in the North, but there were none in the South. The slaves in the South enjoyed lifetime employment and because they were well paid, they did not have to beg, did not go hungry, were never out of jobs and neither did they have to work more than what they can do in a day. The slaves in the South were Blacks. They were from a different and inferior race. In working for slave owners in the South, their life had greatly improved. They had simple desires, little ambitions and they wanted no more than those. Both owners and slaves had no conflicts to disturb the peace of their days. In the case of the North, their slaves were their own race. Hammond believed that such a situation can be humiliating for the slaves, though they are the majority. As this majority had voting rights, they were actually more powerful. With such power they can create the most trouble for their employers. In his Disquisition on Government, Calhoun disagreed with the Founding Father’s idea of the rights of individuals. He believed that it was not true that people were born free and equal. The condition of life of the Blacks, being the inferior, had been improved by Slavery. They had become civilized, and their moral, physical and intellectual circumstances had changed for the better. Historically, there was never a society where part of it did not depend on the efforts of the other. The living and working conditions of the South were much better than those in the North. The Southern slave owners took care of his slaves and their families and were not subjected to the constant and unsettling labor problems in the North. Calhoun’s strongest argument against the Abolitionists was that protection of domestic institutions was granted exclusively to the states. Since Slavery was a peculiar institution to the South, attempts by other states to abolish it was defiance of the Constitution. Pro Slavery advocates cited Biblical references to argue that slavery was allowed by the Lord and intended for it to continue. Exodus 21:5-6, the slave says â€Å"I love my wife, my master and my children, I will not go free. † †¦. nd that â€Å"he (slave) shall serve him (master) for life. In Ephesians 6:5, God instructs â€Å"Servants, obey your masters of this world with fear and respect, with simplicity of heart, as if obeying Christ. † In Genesis 9:26, Noah prayed to the Lord, â€Å"Blessed be Yahweh, God of Shem, let Canaan be his slave. † Titus 2:9 says â€Å"Teach slaves to be subject to their masters †¦Ã¢â‚¬  Colossians 3:22 instructs â€Å"Servants obey your masters in everything not only while they are present, to gain favor with them, but because you fear the Lord. In all these, the advocates believe that slavery did not go against the spiritual teachings. There were also economic considerations in the use of slaves to work in Southern plantations. They were the most cost-efficient, available laborers. Their owners realized big returns of investments that they were able to give their slaves decent and comfortable lives, by way of homes, clothing, medical care and assurance of a stable future. The slave and their owners had a paternalistic relationship where the latter took care of the slaves like family.

Application of Thermal Insulation

Application of Thermal Insulation 1.2 Problem Statement Energy saving in buildings has become a question of crucial importance in many countries. At the same time, the requirements for satisfactory indoor climate with low electricity consumption have increased which prompt the supply and demand for energy efficient homes. The battle against global warming shall start from home insulation to reduce green house gas emission. In developed countries, government has even allowed tax credit to house owners for costs incurred in carrying out home insulation works which meets the urgent need in the fight against global warming. In Malaysia, the common answer from the public in general to make a house or office cool is probably by switching on the air conditioning. The roof of most houses is constructed using timber roof trusses and concrete roof tiles in Malaysia. The heat gained through the roof which convents through the ceiling has increased the indoor heat to a level that most house owners will not feel comfortable without the use of air cond itioners. The impact that roofs have on energy is often overlooked, the impact of which can be significant. In homes, air conditioners make up 23% of energy consumption. Alternatively we can achieve the dream cool and comfort living or working environment despite in a very hot sunny day with the help of install the thermal insulation then will reduce the dependence on air conditioners to cool the home or office. This means insulating a home could potentially save thousands of ringgit in electricity bills. Install the thermal insulation in the wall or roof will increasing the cost of the building but the price tag on insulation is considered small when compared with the benefits including monthly savings in electricity bills throughout the lifespan of the house, reduced greenhouse gas emissions, improved comfort and living standards and a huge contribution to the local economic growth, as the insulation material is manufactured locally. 1.3 Aim The researchers aim for conducting this research is to review the uses and identify the importance of thermal insulation. Besides that, to find out whether application of thermal insulation to the buildings is suitable to be adopted into construction industry in Malaysia. 1.4 Objectives To review the concepts and uses of thermal insulation. To assess the importance or advantages of thermal insulation in Malaysia. To investigate the applicability of thermal insulation amongst the buildings in Malaysia. 1.5 Hypothesis Application of thermal insulation into the buildings would increase the energy saving in buildings and decrease in emission to environmental. 1.6 Background Governments all over the world are beginning to realize the importance of reducing dependence on energy imports as fuel reserves becomes scarcer and supplies are concentrated on a few politically unstable countries. The building sector is probably the most effective and easiest way to start reducing energy consumption. Reduction in energy demand can be most effective due to applying thermal insulation to the buildings. Thermal insulation is the method of preventing heat from escaping a container or from entering the container. In other words, thermal insulation can keep an enclosed area such as a building warm, or it can keep the inside of a container cold. Depending on the climate, we spend more or less energy on heating or cooling, but we will spend more energy on cooling the room by switch on the air conditioning in Malaysia. There have a main reason for using thermal insulation for reduction of heat coming in, without too much loss of light due to the hot climate in Malaysia. So, the demand of energy can be significantly reduced by install a thermal insulation into the wall or roof of those buildings. Thermal insulation has been introduced to reduce the demand of energy result in electric consumption costs up to 40% and the countrys energy resources. This allows savings on the cost of the air-conditioning, because a smaller unit is needed, and on the running cost of the air conditioning. It also indeed creates a more comfortable living and working atmosphere. Besides that, most of the people will switch on the air conditioning to keep the comfort in the room or working place in Malaysia. But, the air conditioners will release a haloalkanes which are a group of chemical compounds, consisting of chlorine, fluorine and carbon, called Chlorofluorocarbons (CFC). The CFC will among the greenhouse gases in the atmosphere that contribute to future global warming. So, apply thermal insulation to the buildings will reduce using the air conditioning naturally will reduce the emission to the environmental also. 1.7 Scope of Study The research project has provided the idea and functions of thermal insulation to the buildings make a preliminary of understanding to it. Besides that, the advantages or importances that apply the thermal insulation to the buildings in Malaysia also fall within the scopes of this research project. In this study, I have studied into few buildings in Malaysia which have installed the thermal insulation such as Pusat Tenaga Malaysia Zero Energy Office (ZEO) building at Bandar Baru Bangi and Low Energy Office (LEO) Ministry of Energy, Water and Communications Malaysia at Putrajaya. Based on these buildings, I will study the benefits that obtain from the buildings which have applied thermal insulation to the wall and roof in this research project. In addition, I will inquire into the applicability of thermal insulation in the buildings in Malaysia. 1.8 Research Methodology For the primary source, questionnaires were prepared as a ground for the main survey which relates to the reason of construction firms attempt to apply thermal insulation to the buildings in Malaysia. The questionnaires were then distributed to the construction firms which are be responsible for ‘Pusat Tenaga Malaysia Zero Energy Office (ZEO) building project and ‘Low Energy Office (LEO) Ministry of Energy, Water and Communications Malaysia through e-mail. For this purpose of survey, mailing list was obtained for website which has listing the name, address and the title of principal officer for each firm listed. That company was chosen and sent a set of questionnaire while those company which have not related into the projects will be randomly chosen for obtain the opinion on the applicability of apply thermal insulation in the buildings in Malaysia. For secondary sources, a comprehensive review of the relevant literature including a computer assisted search, textbook, journals, articles and so on, will be taken to develop an understanding of concept and uses of thermal insulation. Besides that, the importance or advantages of thermal insulation in Malaysia also will be assessed by computer assisted search. 1.9 Proposed structure of the dissertation Chapter 1: Introduction. Chapter 2: Literature Review 2.1 Review concept and uses of thermal insulation. 2.2 Review importance to apply thermal insulation into a building. 2.3 Investigation of applicability of thermal insulation into the buildings in Malaysia. Chapter 3: Research design and methodology. Chapter 4: Analysis of the result and discussion. Chapter 5: Conclusion. References. 1.10 – References Chin Teck, Soh. September 30, 2009. Lack Of Insulation In Malaysian Buildings Key Cause Of High Energy Bills. Viewed on: December 23, 2009. Available on: www.HYPERLINK http://www.highbeam.com/doc/1G1-208867648.htmlhighHYPERLINK http://www.highbeam.com/doc/1G1-208867648.htmlbeam.com/doc/1G1-208867648.html Chin Teck, Soh. September 30, 2009. Save Energy Fight Global Warming. Viewed on: December 23, 2009. Available on: www.mimg.org.my/images/pdf/MIMG_Booklet_revised.pdf Allergy.J, February 19, 1999. ChlorofluorocarbonHYPERLINK http://linkinghub.elsevier.com/retrieve/pii/S0091674999700448 HYPERLINK http://linkinghub.elsevier.com/retrieve/pii/S0091674999700448To Hhydrofluoroalkane formulations. Viewed on: December 24, 2009. Available on: linkinghub.elsevier.com/retrieve/pii/S0091674999700448 Chin Teck, Soh. September 30, 2009. Why Insulate?. Viewed on: December 25, 2009. Available on: www.mimg.org.my/images/pdf/MIMG_Why_Insulate.pdf 2.0 Literature Review 2.1 Review the concepts and uses of thermal insulation 2.1.1 – Concept of thermal insulation Thermal insulation has been defined as a material or combination of materials which slow down the flow of heat, reduce some sound transmission or slow down the spread of fire when buildings are in fire.(Anish, 2003) The thermal insulation materials can be suited to any size, shape or surface and the variety of finishes to be used in order to protect the thermal insulation from mechanical and environmental damage as well as to enhance appearance of buildings.(Anish, 2003) Thermal insulation can be mentioned either to materials used to lower the rate of heat transfer, or the means and processes used to lower heat transfer. Thermal insulation will transfer heat energy and the hHYPERLINK http://en.wikipedia.org/wiki/Heateat energy would be transferred by three methods, which are convection, conduction and radiation. 2.1.1.1 Convection When the heat is flow whether by forced or natural, within a fluid and the fluid is a substance that may be either a gas or a liquid, this process is called convection.(Zhang, et al. 2005) Convection will then gravitationally-induced heat transport, driven by the expansion of a fluid on heating then hot expanded fluid has lower density, so will rise to the top of colder, and therefore denser, fluid.(Fowler, 2008) For example, when air to be heated, then it will expands and rise. However, if the air movement is established mechanically by a floor register, fan, or wind, then it will be called as a forced convection. 2.1.1.2 Conduction Conduction is direct heat flow or conducted from a material especially a solid.(Zhang, et al. 2005) When different parts of an isolated solid are at different temperatures, the heat will flow from the hot places to the cold places until eventually all is at the same temperature.(Fowler, 2008) Conduction and convection have same uses which are functions of the roughness of surfaces, air movement and the temperature difference between the air and surface. The increasing of heat energy can flow through materials and from one material to another.(Kurtus, 2006) 2.1.1.3 Radiation Radiation is the transmission of energy through space by means of electromagnetic waves.(Zhang, et al. 2005) This is clearly in the way the sun warms the surface of the earth, which involves the heat transfer through electromagnetic waves and absorption of the heat energy by a surface. Heat from the sun is reaches human skin as radiation, much of it can clearly be seen or evident light, the rest similar electromagnetic waves but at wavelengths human eyes are not sensitive to it. All bodies not at sheer zero temperature radiate, at room temperature the radiation is in the infrared, wavelengths longer than those of the visible spectrum. (Fowler, 2008) Source: isover Then, the types of thermal insulation are indicates the composition and internal structure of a building and the types of thermal insulation are normally been subdivided into three groups, which are fibrous insulation, cellular insulation and granular insulation.(Muhammad Anis-ur-Rehman, et al. 1999) 2.1.1.4 Fibrous Insulation Fibrous insulation is composing of air finely divided into interstices by small diameter fibers. The fibers may be parallel or perpendicular to the surface being insulated and they may separate or bonded together. That is usually chemically or mechanically bonded and formed into boards, blanket or hollow cylinders. (Muhammad Anis-ur-Rehman, et al. 1999) 2.1.1.5 Cellular Insulation Cellular insulation is composed of air or some other gas contained within foam of stable small bubbles and formed into boards, blankets, or hollow cylinders. The cellular material may be glass or foamed plastic such as polystyrene, polyurethane and elastomeric. (Muhammad Anis-ur-Rehman, et al. 1999) 2.1.1.6 Granular Insulation Granular insulation is composed of air or some other gas in the interstices between small granules and formed into blocks, boards, or hollow cylinders. This type may be produce as loose pourable material or combined with a binder and fibers to make a rigid insulation. (Muhammad Anis-ur-Rehman, et al. 1999) Furthermore, thermal insulation is available in a variety of forms and it is usually rated in terms of thermal resistance which is R-value, which indicates the resistance of material to heat flow. The higher its resistance is, the greater the insulating effectiveness is. Of course, the thermal insulation property depends on the type of material, its thickness, and its density. The combined form and type of insulation will determine the proper method of insulation. There are many forms of thermal insulation are designed to deliver a sustained level of thermal resistance, such as Traditional Batt Insulation or Alternatives, Blown-In Cellulose Insulation, Rigid Board Insulation, Spray Foam Insulation and SIPs/ICFs. 2.1.1.7 Traditional Batt Insulation or Alternatives Batt or Blanket Insulation is the most common and least effective insulation used in the states nowadays. It has an approximate rating of R-3 per inch. Technically the R rating is even lower because typical batts are so loose that they allow air to penetrate them and cool them down. It is possible to use batts effectively in energy efficient buildings but the installation is labor intensive. One slightly greener alternative to batts would be to use batts or rolls made of natural fibers such as Bonded Logics insulation made from recycled denim jeans.[8] These types of insulation typically have a slightly higher R rating and do not harm the indoor air quality since they are made of natural materials. The trade off is that they are pricey and still do not effectively seal air gaps without extra labor and supervision. (Ludeman, 2008) 2.1.1.8 Blown-In Cellulose Insulation Loose-Fill Insulation is an option that can be economic friendly because the Cellulose is a type of blown-in or loose-fill insulation that is made from recycled newspapers. There pros and cons but the bottom line is that it will not provide much better R- value than batt insulation and typically it will cost more to have installed. The best applications seem to be for attics that are not well insulated because cellulose can be quickly and efficiently blow over an attic floor to dramatically and safely increase the insulation between the home and the hot attic space. (Ludeman, 2008) 2.1.1.9 Rigid Board Insulation Rigid Board Insulation can contain some of the highest R-values with some Polyurethane sheets reaching R-8 per inch. Since the insulation comes in the form of rigid boards it is popular as roof and wall coverings attached to the exterior of the framing of a new building. Attaching to the exterior of the framing will improve the strength of the structure while also creating an insulated break or thermal barrier between the wood studs and the exterior sheathing or siding. This can greatly reduce the heat loss transferred from the inside of the building though the wood studs and to the exterior. There are also green versions of rigid board that are normally classified as polystyrene rigid insulation. This type may contain some recycled materials and will not off-gas like some of the other sheet products might. Besides that, rigid board insulation is also can find boards that are laminated or strengthened to act as both the buildings sheathing and insulation. Since sheathing of some type is necessary, this does not eliminate a step but can greatly improve the building envelope without additional labor. (Ludeman, 2008) 2.1.1.10 Spray Foam Insulation Spray-Foam Insulation is probably the most effective type of insulation for traditional, stick-framed buildings available nowadays. The product is in the form of a liquid that is sprayed on and quickly expands to 100 times its size. It can achieve R-values of R-9 per inch but most importantly, it automatically creates an almost perfect air seal upon expanding. While the product is costly, it is effective and reduces a lot of manual caulking and sealing that would be necessary with other types of insulations. The most popular forms are petroleum based but there are also green options such as BioBased Insulation that is composed of 96% bio-content (soy-beans). (Ludeman, 2008) 2.1.1.11 Structurally Insulated Panels (SIPs) / ICFs Structurally Insulated Panels are arguably the best way to achieve a tightly sealed and well insulated building. They are basically two sheets of OSB with spray foam insulation sandwiched between them. They are both structural as well as insulating so they eliminate the need for traditional framing and can streamline the construction of a building is assembled properly. All seams are sealed and there is no thermal bridge from studs. The only downfall is many contractors are unfamiliar with them and they can be quite pricey. Many of the green builders are using Structurally Insulated Panels because there are vehemently opposed to stick building as they view it an obsolete building practice. (Ludeman, 2008) Therefore, apply the thermal insulation for buildings will prevents or reduces heat from escaping a building or from entering a building. Thermal insulation can keep an enclosed area such as a building or a room warm for the cold climate countries like United Kingdom, Poland, New Zealand and so on; or it can keep the inside of a building or a room cold for the tropical climate countries such as Malaysia, Indonesia, Thailand, and so on. So, the thermal insulators are applied and functions to minimize that heat energy transfer from the buildings. In thermal insulation, the R-value is an indication of how well for a material insulates for the buildings. 2.1.1.12 R-value The R-value is the total thermal resistance (RT) for any building elements, including the surface thermal resistances of the air on either side of the building elements. The conductivity of bulk insulation materials will change with the temperature of the material. (Williamson, 2007) It is significant to realize that the boundary conditions and other factors used in the calculation of the R-values, which will cause the R-value different. The total thermal resistance of a flat for building element consisting of layers perpendicular to the heat flow is calculated using the expression: RT = Rsi + R1 + R2 + . . . . . + Rn + Rse Rsi is the internal surface resistance; R1, R2, .Rn are the thermal resistances of each layer, including bridged layers; Rse is the external surface resistance [Source: Dr Terry Williamson (2007)] An air space for the thermal resistance within a building element is depends on the valid emissivity of the space as well as the mean temperature and the difference in temperatures either side of the space.(Williamson, 2007) It follows therefore that the calculation of the R-value of a building element containing air spaces depends on the conditions assumed externally and internally.(Williamson, 2007) Thus, the flow of heat can be reduced by applying thermal insulation materials to the buildings and The rate of heat transfer is dependent on the physical properties of the material employed to do this. Insulation for the home has R-values usually in the range of R-10 up to R-30. The following is a listing of different materials with the English measurement of R-value: Material R-value Hardwood siding (1 in. thick) 0.91 Wood shingles (lapped) 0.87 Brick (4 in. thick) 4.00 Concrete block (filled cores) 1.93 Fiberglass batting (3.5 in. thick) 10.90 Fiberglass batting (6 in. thick) 18.80 Fiberglass board (1 in. thick) 4.35 Cellulose fiber (1 in. thick) 3.70 Flat glass (0.125 in thick) 0.89 Insulating glass (0.25 in space) 1.54 Air space (3.5 in. thick) 1.01 Free stagnant air layer 0.17 Drywall (0.5 in. thick) 0.45 Sheathing (0.5 in. thick) 1.32 [Source:  Hyperphysics Georgia State University] Another mathematical expression used in thermal quantification, and the most common reference used by the insulation industry, is U-value, or flow rate of heat through a building elements. 2.1.1.13 U-value U-value is to be used for describe the amount of heat loss or also called as thermal transmittance, that occurs through an element of construction such as a wall or window. (Raynham, 1975) If an element of construction has a lower the U-value the less energy is lost and the better is its insulating characteristics.(Zimmermann Bertschinger, 2001) It has the same unit as thermal conductivity, except that since a U-value refers to a given construction, the thickness of which is taken into account, it has the unit W m-2 K-1. U-value is computed according to the formula: U=(Ri s+ Re s,+Rc a v+k1-l+k2-1+†¦)-l Ri s and, Re s are the thermal resistances of internal and external surfaces respectively; Rc a v is the sum of thermal resistances of any cavities; k1-l+k2-1+†¦ are the thermal resistances of each material used. [Source: Mark Zimmerman Hans Bertschinger (2001)] Since the U-value is a measurement of heat flow, the lower the U-value, the more slowly does the material transfer heat in and out of the home. The U-value typically is used in expressing overall thermal conductance, since it is a measurement of the rate of heat flow through the complete heat barrier, from room air to outside air.(Anderson, 2006) The lower the U-value, the better is the insulating value. The U-value of a constructional element of buildings would decreases rapidly as the first few centimeters of thermal insulation are added.(Rouni, 2005) An even more increase in thermal insulation thickness does not always lead to an equally fast decrease in the U-value. The thicker the thermal insulation layer already is, the less the decrease in the U-value is by more adding thermal insulation.(Rouni, 2005) The following diagram shows the decrease in the U-value as the thickness of the insulation layer increases. [Source: GK Rouni (2005)] Temperature and temperature variations govern much of our daily lives, the environmental factors such as temperature, radiation, air motion, and humidity, as well as on personal factors such as activity levels, clothing selection and expectation, all of those factors are contribute to the state of thermal comfort.(Bynum, 2000) Thermal comfort is a term given the varying nature of the human condition, has been described as a feeling of well-being, an absence of discomfort, or a state of mind that is satisfied with the thermal environment. (McDowall, 2007) 2.1.2 – Uses of thermal insulation The human beings have demonstrated that we are need for the protection from the elements of construction and although many of these factors are continuously in flux, but the proper use of thermal insulation, placement of vapor barriers, and understanding of heat transfer will contribute to providing an environment conducive to thermal comfort within the buildings to the human.(Bynum, 2000) Thermal insulation is the better way to protect anything against the heat because the material use for this is really heat absorbing material. Thermal insulation is to be used to perform many of the functions and the primary purpose of thermal insulation is to reduce heat loss or heat gain through the exterior assemblies of a building in order to achieve energy conservation.(Stettler, 2009) Basically thermal insulations reduce the rate of heat transfer because there are special type of thermal insulation material which converts the heat energy to some other form by conduction, convention and radiation as mentioned as foresaid. [Source: exergia] As the drawing shows that the houses lose heat through walls, windows, doors, floors, roofs and ventilation.  Thermal insulation, quality double-glazed windows and controlled ventilation can reduce the heat losses by as much as 50%, thus reducing the heating costs in the cold climate.(Weber, 2006) However, an energy efficient home featuring thermal insulation, shading, brightly colored external surfaces and controlled ventilation also greatly enhance the thermal comfort by offering protection from the heat and radiation of the sun. (Weber, 2006)  This also helps to drastically reduce the electrical bills that pay to run air conditioners in tropical climate. Besides that, apply thermal insulation for buildings will protect the environment through the reduction of Chlorofluorocarbon (CFC), Carbon Dioxide (CO2), Nitrogen Oxide (NOx) and greenhouse gases. (Stettler, 2009) The greenhouse effect to a great level decides the climate on earth. Growth in emissions of greenhouse gases related with human activities menaces the climate balance. Chlorofluorocarbon (CFC) and Carbon Dioxide (CO2) are the main greenhouse gas which are emitted due to air-conditioners are function to provide cool or hot air and increasing thermal comfort of buildings, there have led to rapid growth in the amount of Chlorofluorocarbon (CFC) and Carbon Dioxide (CO2) in the a atmosphere. Heating, air conditioning and refrigeration are the causes that result in this growth. If no action is taken at all, the EU Member States said that greenhouse gas emissions could be expected to further increase by 17% between 1990 and 2010, while the target set by the Kyoto Protocol for the period is to reduce the emissions by 8%. The reasonable level of expenditure on insulation is directly related to the amount of the heat loss or heat gain, and to the electricity of air-conditioning required to produce an appreciable return in terms of electricity saving. Fortunately, it is possible to reduce energy consumption and the associated Chlorofluorocarbon (CFC) and Carbon Dioxide (CO2) emissions in heating and air conditioning by one third by using more or better insulation for the buildings.(Roberts, et al. 1981) Furthermore, the thermal insulation also can be used in buildings in order to prevent or reduce condensation on surfaces.(Raynham 1973) If wants to prevent condensation on the surface of walls, it is necessary to have adequate ventilation and sufficient insulation and heat input. It is also necessary to consider the question of whether condensation is likely to occur within a structure. Since most structures experience a falling dew point especially where insulating internal linings are provided, as well as temperature gradient from inside to out, it is possible for the temperature on the cold side of the insulation to fall below the dew point, causing interstitial condensation.(Raynham 1973) This can be controlled by providing water vapour barriers on the warm side of the insulation. This may take the form of polythene film or certain types of paint treatment, such as chlorinated rubber on the insulated lining. In some situations such as factory roofs and some timber flat roofs, ventilation is provided above the insulation to remove any water vapour that has penetrated that far.(Raynham 1973) Thermal insulation also can use to prevent or reduce damage to buildings when occur fire in the buildings or near the buildings.(Raynham 1973) When fire breaks out in a compartment the contents of the whole room are heated up, leading to accumulation of flammable gas. Eventually a point is reached when these gases, together with the materials evolving them, suddenly kindle and thus involve the whole room in fire. Tests done many years ago at the Fire Research Station (Raynham 1973) investigated the factors leading to a short, and therefore dangerous, flashover time. Tests involving fires in domestic sized rooms with insulating board and hardboard wall linings showed that flashover occurred at between 8.5 and 12min. Two further tests made with a noncombustible sprayed insulating lining gave flashover times of 8 and 4.5 min, thus suggesting that the thermal insulating characteristics of a lining are probably more significant from a fire development point of view than its combustibility. If this is true to any extent, significantly improved standards of thermal insulation, such as we are about to adopt in this country, are almost certain to accentuate the fire risk, especially in dwellings. The thermal insulation also can be installed in the mechanical system in commercial buildings and industrial processes.(Avtivity, 2008) In buildings such as shopping centers, schools, hospitals, and hotels, mechanical insulations are installed to improve the energy consumption of the cooling and heating systems for buildings, domestic hot and cold water supply, and refrigerated systems including ducts and housings. However, for industrial facilities such as power plants, refineries, and paper mills, mechanical thermal insulations are installed to control heat gain or heat loss on process piping and equipment, steam and condensate distribution systems, boilers, smoke stacks, bag houses and precipitators, and storage tanks.(Avtivity, 2008) Thermal insulation for mechanical system is to dominate the temperatures of the surface for personnel and equipment protection. That is one of the most effective mediums of protecting workers from second and third degree burns resulting from skin contact for more than 5 seconds with surfaces of hot piping and equipment operating at temperatures above 136.4 °F.(Avtivity, 2008) Thermal insulation will function to reduces the surface temperature of piping or equipment into a safer level as required by OSHA, resulting in increased worker safety and the avoidance of worker downtime due to injury.(Avtivity, 2008) Besides, thermal insulation also will control the temperature of commercial and industrial processes when installed in the mechanical system.(Avtivity, 2008) Thermal insulation can help maintain process temperature to a pre-determined value or within a predetermined range by reducing heat loss or gain. The insulation thickness must be sufficient to limit the heat transfer in a dynamic system or limit the temperature change, with time, in a static system.(Avtivity, 2008) The need to provide time for owners to take remedial action in emergency situations in the event of loss of electrical power, or heat sources is a major reason for this action in a static system. At last but not least, installed the thermal insulation in the mechanical system will reduce noise from mechanical systems.(Avtivity, 2008) Insulation materials can be used in the design of an assembly having a high sound attenuation or sound resistance. The sound transmission loss when the thermal insulation to be installed between the source and the surrounding area.(Avtivity, 2008) So, thermal insulation not only can be used for building but also for the mechanical system in commercial buildings and industrial processes in order to achieve different effects. 2.2 – The importance or advantages of thermal insulation in Malaysia 2.2.1 – Advantages of thermal insulation in Malaysia Governments all over the world are beginning to recognize the significance of reducing dependence on energy imports as fuel reserves becomes scarcer and supplies are focused on a few politically unstable countries. In the Malaysian context, the ener Application of Thermal Insulation Application of Thermal Insulation 1.2 Problem Statement Energy saving in buildings has become a question of crucial importance in many countries. At the same time, the requirements for satisfactory indoor climate with low electricity consumption have increased which prompt the supply and demand for energy efficient homes. The battle against global warming shall start from home insulation to reduce green house gas emission. In developed countries, government has even allowed tax credit to house owners for costs incurred in carrying out home insulation works which meets the urgent need in the fight against global warming. In Malaysia, the common answer from the public in general to make a house or office cool is probably by switching on the air conditioning. The roof of most houses is constructed using timber roof trusses and concrete roof tiles in Malaysia. The heat gained through the roof which convents through the ceiling has increased the indoor heat to a level that most house owners will not feel comfortable without the use of air cond itioners. The impact that roofs have on energy is often overlooked, the impact of which can be significant. In homes, air conditioners make up 23% of energy consumption. Alternatively we can achieve the dream cool and comfort living or working environment despite in a very hot sunny day with the help of install the thermal insulation then will reduce the dependence on air conditioners to cool the home or office. This means insulating a home could potentially save thousands of ringgit in electricity bills. Install the thermal insulation in the wall or roof will increasing the cost of the building but the price tag on insulation is considered small when compared with the benefits including monthly savings in electricity bills throughout the lifespan of the house, reduced greenhouse gas emissions, improved comfort and living standards and a huge contribution to the local economic growth, as the insulation material is manufactured locally. 1.3 Aim The researchers aim for conducting this research is to review the uses and identify the importance of thermal insulation. Besides that, to find out whether application of thermal insulation to the buildings is suitable to be adopted into construction industry in Malaysia. 1.4 Objectives To review the concepts and uses of thermal insulation. To assess the importance or advantages of thermal insulation in Malaysia. To investigate the applicability of thermal insulation amongst the buildings in Malaysia. 1.5 Hypothesis Application of thermal insulation into the buildings would increase the energy saving in buildings and decrease in emission to environmental. 1.6 Background Governments all over the world are beginning to realize the importance of reducing dependence on energy imports as fuel reserves becomes scarcer and supplies are concentrated on a few politically unstable countries. The building sector is probably the most effective and easiest way to start reducing energy consumption. Reduction in energy demand can be most effective due to applying thermal insulation to the buildings. Thermal insulation is the method of preventing heat from escaping a container or from entering the container. In other words, thermal insulation can keep an enclosed area such as a building warm, or it can keep the inside of a container cold. Depending on the climate, we spend more or less energy on heating or cooling, but we will spend more energy on cooling the room by switch on the air conditioning in Malaysia. There have a main reason for using thermal insulation for reduction of heat coming in, without too much loss of light due to the hot climate in Malaysia. So, the demand of energy can be significantly reduced by install a thermal insulation into the wall or roof of those buildings. Thermal insulation has been introduced to reduce the demand of energy result in electric consumption costs up to 40% and the countrys energy resources. This allows savings on the cost of the air-conditioning, because a smaller unit is needed, and on the running cost of the air conditioning. It also indeed creates a more comfortable living and working atmosphere. Besides that, most of the people will switch on the air conditioning to keep the comfort in the room or working place in Malaysia. But, the air conditioners will release a haloalkanes which are a group of chemical compounds, consisting of chlorine, fluorine and carbon, called Chlorofluorocarbons (CFC). The CFC will among the greenhouse gases in the atmosphere that contribute to future global warming. So, apply thermal insulation to the buildings will reduce using the air conditioning naturally will reduce the emission to the environmental also. 1.7 Scope of Study The research project has provided the idea and functions of thermal insulation to the buildings make a preliminary of understanding to it. Besides that, the advantages or importances that apply the thermal insulation to the buildings in Malaysia also fall within the scopes of this research project. In this study, I have studied into few buildings in Malaysia which have installed the thermal insulation such as Pusat Tenaga Malaysia Zero Energy Office (ZEO) building at Bandar Baru Bangi and Low Energy Office (LEO) Ministry of Energy, Water and Communications Malaysia at Putrajaya. Based on these buildings, I will study the benefits that obtain from the buildings which have applied thermal insulation to the wall and roof in this research project. In addition, I will inquire into the applicability of thermal insulation in the buildings in Malaysia. 1.8 Research Methodology For the primary source, questionnaires were prepared as a ground for the main survey which relates to the reason of construction firms attempt to apply thermal insulation to the buildings in Malaysia. The questionnaires were then distributed to the construction firms which are be responsible for ‘Pusat Tenaga Malaysia Zero Energy Office (ZEO) building project and ‘Low Energy Office (LEO) Ministry of Energy, Water and Communications Malaysia through e-mail. For this purpose of survey, mailing list was obtained for website which has listing the name, address and the title of principal officer for each firm listed. That company was chosen and sent a set of questionnaire while those company which have not related into the projects will be randomly chosen for obtain the opinion on the applicability of apply thermal insulation in the buildings in Malaysia. For secondary sources, a comprehensive review of the relevant literature including a computer assisted search, textbook, journals, articles and so on, will be taken to develop an understanding of concept and uses of thermal insulation. Besides that, the importance or advantages of thermal insulation in Malaysia also will be assessed by computer assisted search. 1.9 Proposed structure of the dissertation Chapter 1: Introduction. Chapter 2: Literature Review 2.1 Review concept and uses of thermal insulation. 2.2 Review importance to apply thermal insulation into a building. 2.3 Investigation of applicability of thermal insulation into the buildings in Malaysia. Chapter 3: Research design and methodology. Chapter 4: Analysis of the result and discussion. Chapter 5: Conclusion. References. 1.10 – References Chin Teck, Soh. September 30, 2009. Lack Of Insulation In Malaysian Buildings Key Cause Of High Energy Bills. Viewed on: December 23, 2009. Available on: www.HYPERLINK http://www.highbeam.com/doc/1G1-208867648.htmlhighHYPERLINK http://www.highbeam.com/doc/1G1-208867648.htmlbeam.com/doc/1G1-208867648.html Chin Teck, Soh. September 30, 2009. Save Energy Fight Global Warming. Viewed on: December 23, 2009. Available on: www.mimg.org.my/images/pdf/MIMG_Booklet_revised.pdf Allergy.J, February 19, 1999. ChlorofluorocarbonHYPERLINK http://linkinghub.elsevier.com/retrieve/pii/S0091674999700448 HYPERLINK http://linkinghub.elsevier.com/retrieve/pii/S0091674999700448To Hhydrofluoroalkane formulations. Viewed on: December 24, 2009. Available on: linkinghub.elsevier.com/retrieve/pii/S0091674999700448 Chin Teck, Soh. September 30, 2009. Why Insulate?. Viewed on: December 25, 2009. Available on: www.mimg.org.my/images/pdf/MIMG_Why_Insulate.pdf 2.0 Literature Review 2.1 Review the concepts and uses of thermal insulation 2.1.1 – Concept of thermal insulation Thermal insulation has been defined as a material or combination of materials which slow down the flow of heat, reduce some sound transmission or slow down the spread of fire when buildings are in fire.(Anish, 2003) The thermal insulation materials can be suited to any size, shape or surface and the variety of finishes to be used in order to protect the thermal insulation from mechanical and environmental damage as well as to enhance appearance of buildings.(Anish, 2003) Thermal insulation can be mentioned either to materials used to lower the rate of heat transfer, or the means and processes used to lower heat transfer. Thermal insulation will transfer heat energy and the hHYPERLINK http://en.wikipedia.org/wiki/Heateat energy would be transferred by three methods, which are convection, conduction and radiation. 2.1.1.1 Convection When the heat is flow whether by forced or natural, within a fluid and the fluid is a substance that may be either a gas or a liquid, this process is called convection.(Zhang, et al. 2005) Convection will then gravitationally-induced heat transport, driven by the expansion of a fluid on heating then hot expanded fluid has lower density, so will rise to the top of colder, and therefore denser, fluid.(Fowler, 2008) For example, when air to be heated, then it will expands and rise. However, if the air movement is established mechanically by a floor register, fan, or wind, then it will be called as a forced convection. 2.1.1.2 Conduction Conduction is direct heat flow or conducted from a material especially a solid.(Zhang, et al. 2005) When different parts of an isolated solid are at different temperatures, the heat will flow from the hot places to the cold places until eventually all is at the same temperature.(Fowler, 2008) Conduction and convection have same uses which are functions of the roughness of surfaces, air movement and the temperature difference between the air and surface. The increasing of heat energy can flow through materials and from one material to another.(Kurtus, 2006) 2.1.1.3 Radiation Radiation is the transmission of energy through space by means of electromagnetic waves.(Zhang, et al. 2005) This is clearly in the way the sun warms the surface of the earth, which involves the heat transfer through electromagnetic waves and absorption of the heat energy by a surface. Heat from the sun is reaches human skin as radiation, much of it can clearly be seen or evident light, the rest similar electromagnetic waves but at wavelengths human eyes are not sensitive to it. All bodies not at sheer zero temperature radiate, at room temperature the radiation is in the infrared, wavelengths longer than those of the visible spectrum. (Fowler, 2008) Source: isover Then, the types of thermal insulation are indicates the composition and internal structure of a building and the types of thermal insulation are normally been subdivided into three groups, which are fibrous insulation, cellular insulation and granular insulation.(Muhammad Anis-ur-Rehman, et al. 1999) 2.1.1.4 Fibrous Insulation Fibrous insulation is composing of air finely divided into interstices by small diameter fibers. The fibers may be parallel or perpendicular to the surface being insulated and they may separate or bonded together. That is usually chemically or mechanically bonded and formed into boards, blanket or hollow cylinders. (Muhammad Anis-ur-Rehman, et al. 1999) 2.1.1.5 Cellular Insulation Cellular insulation is composed of air or some other gas contained within foam of stable small bubbles and formed into boards, blankets, or hollow cylinders. The cellular material may be glass or foamed plastic such as polystyrene, polyurethane and elastomeric. (Muhammad Anis-ur-Rehman, et al. 1999) 2.1.1.6 Granular Insulation Granular insulation is composed of air or some other gas in the interstices between small granules and formed into blocks, boards, or hollow cylinders. This type may be produce as loose pourable material or combined with a binder and fibers to make a rigid insulation. (Muhammad Anis-ur-Rehman, et al. 1999) Furthermore, thermal insulation is available in a variety of forms and it is usually rated in terms of thermal resistance which is R-value, which indicates the resistance of material to heat flow. The higher its resistance is, the greater the insulating effectiveness is. Of course, the thermal insulation property depends on the type of material, its thickness, and its density. The combined form and type of insulation will determine the proper method of insulation. There are many forms of thermal insulation are designed to deliver a sustained level of thermal resistance, such as Traditional Batt Insulation or Alternatives, Blown-In Cellulose Insulation, Rigid Board Insulation, Spray Foam Insulation and SIPs/ICFs. 2.1.1.7 Traditional Batt Insulation or Alternatives Batt or Blanket Insulation is the most common and least effective insulation used in the states nowadays. It has an approximate rating of R-3 per inch. Technically the R rating is even lower because typical batts are so loose that they allow air to penetrate them and cool them down. It is possible to use batts effectively in energy efficient buildings but the installation is labor intensive. One slightly greener alternative to batts would be to use batts or rolls made of natural fibers such as Bonded Logics insulation made from recycled denim jeans.[8] These types of insulation typically have a slightly higher R rating and do not harm the indoor air quality since they are made of natural materials. The trade off is that they are pricey and still do not effectively seal air gaps without extra labor and supervision. (Ludeman, 2008) 2.1.1.8 Blown-In Cellulose Insulation Loose-Fill Insulation is an option that can be economic friendly because the Cellulose is a type of blown-in or loose-fill insulation that is made from recycled newspapers. There pros and cons but the bottom line is that it will not provide much better R- value than batt insulation and typically it will cost more to have installed. The best applications seem to be for attics that are not well insulated because cellulose can be quickly and efficiently blow over an attic floor to dramatically and safely increase the insulation between the home and the hot attic space. (Ludeman, 2008) 2.1.1.9 Rigid Board Insulation Rigid Board Insulation can contain some of the highest R-values with some Polyurethane sheets reaching R-8 per inch. Since the insulation comes in the form of rigid boards it is popular as roof and wall coverings attached to the exterior of the framing of a new building. Attaching to the exterior of the framing will improve the strength of the structure while also creating an insulated break or thermal barrier between the wood studs and the exterior sheathing or siding. This can greatly reduce the heat loss transferred from the inside of the building though the wood studs and to the exterior. There are also green versions of rigid board that are normally classified as polystyrene rigid insulation. This type may contain some recycled materials and will not off-gas like some of the other sheet products might. Besides that, rigid board insulation is also can find boards that are laminated or strengthened to act as both the buildings sheathing and insulation. Since sheathing of some type is necessary, this does not eliminate a step but can greatly improve the building envelope without additional labor. (Ludeman, 2008) 2.1.1.10 Spray Foam Insulation Spray-Foam Insulation is probably the most effective type of insulation for traditional, stick-framed buildings available nowadays. The product is in the form of a liquid that is sprayed on and quickly expands to 100 times its size. It can achieve R-values of R-9 per inch but most importantly, it automatically creates an almost perfect air seal upon expanding. While the product is costly, it is effective and reduces a lot of manual caulking and sealing that would be necessary with other types of insulations. The most popular forms are petroleum based but there are also green options such as BioBased Insulation that is composed of 96% bio-content (soy-beans). (Ludeman, 2008) 2.1.1.11 Structurally Insulated Panels (SIPs) / ICFs Structurally Insulated Panels are arguably the best way to achieve a tightly sealed and well insulated building. They are basically two sheets of OSB with spray foam insulation sandwiched between them. They are both structural as well as insulating so they eliminate the need for traditional framing and can streamline the construction of a building is assembled properly. All seams are sealed and there is no thermal bridge from studs. The only downfall is many contractors are unfamiliar with them and they can be quite pricey. Many of the green builders are using Structurally Insulated Panels because there are vehemently opposed to stick building as they view it an obsolete building practice. (Ludeman, 2008) Therefore, apply the thermal insulation for buildings will prevents or reduces heat from escaping a building or from entering a building. Thermal insulation can keep an enclosed area such as a building or a room warm for the cold climate countries like United Kingdom, Poland, New Zealand and so on; or it can keep the inside of a building or a room cold for the tropical climate countries such as Malaysia, Indonesia, Thailand, and so on. So, the thermal insulators are applied and functions to minimize that heat energy transfer from the buildings. In thermal insulation, the R-value is an indication of how well for a material insulates for the buildings. 2.1.1.12 R-value The R-value is the total thermal resistance (RT) for any building elements, including the surface thermal resistances of the air on either side of the building elements. The conductivity of bulk insulation materials will change with the temperature of the material. (Williamson, 2007) It is significant to realize that the boundary conditions and other factors used in the calculation of the R-values, which will cause the R-value different. The total thermal resistance of a flat for building element consisting of layers perpendicular to the heat flow is calculated using the expression: RT = Rsi + R1 + R2 + . . . . . + Rn + Rse Rsi is the internal surface resistance; R1, R2, .Rn are the thermal resistances of each layer, including bridged layers; Rse is the external surface resistance [Source: Dr Terry Williamson (2007)] An air space for the thermal resistance within a building element is depends on the valid emissivity of the space as well as the mean temperature and the difference in temperatures either side of the space.(Williamson, 2007) It follows therefore that the calculation of the R-value of a building element containing air spaces depends on the conditions assumed externally and internally.(Williamson, 2007) Thus, the flow of heat can be reduced by applying thermal insulation materials to the buildings and The rate of heat transfer is dependent on the physical properties of the material employed to do this. Insulation for the home has R-values usually in the range of R-10 up to R-30. The following is a listing of different materials with the English measurement of R-value: Material R-value Hardwood siding (1 in. thick) 0.91 Wood shingles (lapped) 0.87 Brick (4 in. thick) 4.00 Concrete block (filled cores) 1.93 Fiberglass batting (3.5 in. thick) 10.90 Fiberglass batting (6 in. thick) 18.80 Fiberglass board (1 in. thick) 4.35 Cellulose fiber (1 in. thick) 3.70 Flat glass (0.125 in thick) 0.89 Insulating glass (0.25 in space) 1.54 Air space (3.5 in. thick) 1.01 Free stagnant air layer 0.17 Drywall (0.5 in. thick) 0.45 Sheathing (0.5 in. thick) 1.32 [Source:  Hyperphysics Georgia State University] Another mathematical expression used in thermal quantification, and the most common reference used by the insulation industry, is U-value, or flow rate of heat through a building elements. 2.1.1.13 U-value U-value is to be used for describe the amount of heat loss or also called as thermal transmittance, that occurs through an element of construction such as a wall or window. (Raynham, 1975) If an element of construction has a lower the U-value the less energy is lost and the better is its insulating characteristics.(Zimmermann Bertschinger, 2001) It has the same unit as thermal conductivity, except that since a U-value refers to a given construction, the thickness of which is taken into account, it has the unit W m-2 K-1. U-value is computed according to the formula: U=(Ri s+ Re s,+Rc a v+k1-l+k2-1+†¦)-l Ri s and, Re s are the thermal resistances of internal and external surfaces respectively; Rc a v is the sum of thermal resistances of any cavities; k1-l+k2-1+†¦ are the thermal resistances of each material used. [Source: Mark Zimmerman Hans Bertschinger (2001)] Since the U-value is a measurement of heat flow, the lower the U-value, the more slowly does the material transfer heat in and out of the home. The U-value typically is used in expressing overall thermal conductance, since it is a measurement of the rate of heat flow through the complete heat barrier, from room air to outside air.(Anderson, 2006) The lower the U-value, the better is the insulating value. The U-value of a constructional element of buildings would decreases rapidly as the first few centimeters of thermal insulation are added.(Rouni, 2005) An even more increase in thermal insulation thickness does not always lead to an equally fast decrease in the U-value. The thicker the thermal insulation layer already is, the less the decrease in the U-value is by more adding thermal insulation.(Rouni, 2005) The following diagram shows the decrease in the U-value as the thickness of the insulation layer increases. [Source: GK Rouni (2005)] Temperature and temperature variations govern much of our daily lives, the environmental factors such as temperature, radiation, air motion, and humidity, as well as on personal factors such as activity levels, clothing selection and expectation, all of those factors are contribute to the state of thermal comfort.(Bynum, 2000) Thermal comfort is a term given the varying nature of the human condition, has been described as a feeling of well-being, an absence of discomfort, or a state of mind that is satisfied with the thermal environment. (McDowall, 2007) 2.1.2 – Uses of thermal insulation The human beings have demonstrated that we are need for the protection from the elements of construction and although many of these factors are continuously in flux, but the proper use of thermal insulation, placement of vapor barriers, and understanding of heat transfer will contribute to providing an environment conducive to thermal comfort within the buildings to the human.(Bynum, 2000) Thermal insulation is the better way to protect anything against the heat because the material use for this is really heat absorbing material. Thermal insulation is to be used to perform many of the functions and the primary purpose of thermal insulation is to reduce heat loss or heat gain through the exterior assemblies of a building in order to achieve energy conservation.(Stettler, 2009) Basically thermal insulations reduce the rate of heat transfer because there are special type of thermal insulation material which converts the heat energy to some other form by conduction, convention and radiation as mentioned as foresaid. [Source: exergia] As the drawing shows that the houses lose heat through walls, windows, doors, floors, roofs and ventilation.  Thermal insulation, quality double-glazed windows and controlled ventilation can reduce the heat losses by as much as 50%, thus reducing the heating costs in the cold climate.(Weber, 2006) However, an energy efficient home featuring thermal insulation, shading, brightly colored external surfaces and controlled ventilation also greatly enhance the thermal comfort by offering protection from the heat and radiation of the sun. (Weber, 2006)  This also helps to drastically reduce the electrical bills that pay to run air conditioners in tropical climate. Besides that, apply thermal insulation for buildings will protect the environment through the reduction of Chlorofluorocarbon (CFC), Carbon Dioxide (CO2), Nitrogen Oxide (NOx) and greenhouse gases. (Stettler, 2009) The greenhouse effect to a great level decides the climate on earth. Growth in emissions of greenhouse gases related with human activities menaces the climate balance. Chlorofluorocarbon (CFC) and Carbon Dioxide (CO2) are the main greenhouse gas which are emitted due to air-conditioners are function to provide cool or hot air and increasing thermal comfort of buildings, there have led to rapid growth in the amount of Chlorofluorocarbon (CFC) and Carbon Dioxide (CO2) in the a atmosphere. Heating, air conditioning and refrigeration are the causes that result in this growth. If no action is taken at all, the EU Member States said that greenhouse gas emissions could be expected to further increase by 17% between 1990 and 2010, while the target set by the Kyoto Protocol for the period is to reduce the emissions by 8%. The reasonable level of expenditure on insulation is directly related to the amount of the heat loss or heat gain, and to the electricity of air-conditioning required to produce an appreciable return in terms of electricity saving. Fortunately, it is possible to reduce energy consumption and the associated Chlorofluorocarbon (CFC) and Carbon Dioxide (CO2) emissions in heating and air conditioning by one third by using more or better insulation for the buildings.(Roberts, et al. 1981) Furthermore, the thermal insulation also can be used in buildings in order to prevent or reduce condensation on surfaces.(Raynham 1973) If wants to prevent condensation on the surface of walls, it is necessary to have adequate ventilation and sufficient insulation and heat input. It is also necessary to consider the question of whether condensation is likely to occur within a structure. Since most structures experience a falling dew point especially where insulating internal linings are provided, as well as temperature gradient from inside to out, it is possible for the temperature on the cold side of the insulation to fall below the dew point, causing interstitial condensation.(Raynham 1973) This can be controlled by providing water vapour barriers on the warm side of the insulation. This may take the form of polythene film or certain types of paint treatment, such as chlorinated rubber on the insulated lining. In some situations such as factory roofs and some timber flat roofs, ventilation is provided above the insulation to remove any water vapour that has penetrated that far.(Raynham 1973) Thermal insulation also can use to prevent or reduce damage to buildings when occur fire in the buildings or near the buildings.(Raynham 1973) When fire breaks out in a compartment the contents of the whole room are heated up, leading to accumulation of flammable gas. Eventually a point is reached when these gases, together with the materials evolving them, suddenly kindle and thus involve the whole room in fire. Tests done many years ago at the Fire Research Station (Raynham 1973) investigated the factors leading to a short, and therefore dangerous, flashover time. Tests involving fires in domestic sized rooms with insulating board and hardboard wall linings showed that flashover occurred at between 8.5 and 12min. Two further tests made with a noncombustible sprayed insulating lining gave flashover times of 8 and 4.5 min, thus suggesting that the thermal insulating characteristics of a lining are probably more significant from a fire development point of view than its combustibility. If this is true to any extent, significantly improved standards of thermal insulation, such as we are about to adopt in this country, are almost certain to accentuate the fire risk, especially in dwellings. The thermal insulation also can be installed in the mechanical system in commercial buildings and industrial processes.(Avtivity, 2008) In buildings such as shopping centers, schools, hospitals, and hotels, mechanical insulations are installed to improve the energy consumption of the cooling and heating systems for buildings, domestic hot and cold water supply, and refrigerated systems including ducts and housings. However, for industrial facilities such as power plants, refineries, and paper mills, mechanical thermal insulations are installed to control heat gain or heat loss on process piping and equipment, steam and condensate distribution systems, boilers, smoke stacks, bag houses and precipitators, and storage tanks.(Avtivity, 2008) Thermal insulation for mechanical system is to dominate the temperatures of the surface for personnel and equipment protection. That is one of the most effective mediums of protecting workers from second and third degree burns resulting from skin contact for more than 5 seconds with surfaces of hot piping and equipment operating at temperatures above 136.4 °F.(Avtivity, 2008) Thermal insulation will function to reduces the surface temperature of piping or equipment into a safer level as required by OSHA, resulting in increased worker safety and the avoidance of worker downtime due to injury.(Avtivity, 2008) Besides, thermal insulation also will control the temperature of commercial and industrial processes when installed in the mechanical system.(Avtivity, 2008) Thermal insulation can help maintain process temperature to a pre-determined value or within a predetermined range by reducing heat loss or gain. The insulation thickness must be sufficient to limit the heat transfer in a dynamic system or limit the temperature change, with time, in a static system.(Avtivity, 2008) The need to provide time for owners to take remedial action in emergency situations in the event of loss of electrical power, or heat sources is a major reason for this action in a static system. At last but not least, installed the thermal insulation in the mechanical system will reduce noise from mechanical systems.(Avtivity, 2008) Insulation materials can be used in the design of an assembly having a high sound attenuation or sound resistance. The sound transmission loss when the thermal insulation to be installed between the source and the surrounding area.(Avtivity, 2008) So, thermal insulation not only can be used for building but also for the mechanical system in commercial buildings and industrial processes in order to achieve different effects. 2.2 – The importance or advantages of thermal insulation in Malaysia 2.2.1 – Advantages of thermal insulation in Malaysia Governments all over the world are beginning to recognize the significance of reducing dependence on energy imports as fuel reserves becomes scarcer and supplies are focused on a few politically unstable countries. In the Malaysian context, the ener