ࡱ>  Y1bjbjEE .''Y) ooooodPfffFHHHHHH, "toffffftoofooFfFP 2lxj20##o<fffttfffffff#fffffffff + 5:   Penn Fosters Iowa HVAC Apprenticeship program Course PF Course Course Title Number Price Duration Year 1 Basic Industrial Math Block X21 $408.00 30 hours Addition and Subtraction 186008 ($68.00) (5 hours) Multiplication and Division 186009 ($68.00) (5 hours) Fractions, Percents, Proportions, and Angles 186010 ($68.00) (5 hours) Metric System 186011 ($68.00) (5 hours) Formulas 186012 ($68.00) (5 hours) Introduction to Algebra 186013 ($68.00) (5 hours) Practical Measurements Block X22 $340.00 25 hours Linear and Distance Measurement 186021 ($68.00) (5 hours) Bulk Measurement 186022 ($68.00) (5 hours) Temperature Measurement 186023 ($68.00) (5 hours) Energy, Force, and Power 186024 ($68.00) (5 hours) Fluid Measurement 186025 ($68.00) (5 hours) Industrial Safety Block X23 $476.00 35 hours Trades Safety: Getting Started 186001 ($68.00) (5 hours) Working Safely with Chemicals 186002 ($68.00) (5 hours) Fire Safety 186003 ($68.00) (5 hours) Safe Handling of Pressured Gasses and Welding 186004 ($68.00) (5 hours) Electrical Safety for the Trades 186005 ($68.00) (5 hours) Material Handling Safety 186006 ($68.00) (5 hours) Machine Shop Safety 186007 ($68.00) (5 hours) Jobs, Companies, and the Economy: Basic Concepts for Employees 186034 $68.00 5 hours Quality Concepts: Tools and Applications 186036 $68.00 5 hours Common Hand Tools, Part 1 186052 $68.00 5 hours Common Hand Tools, Part 2 186053 $68.00 5 hours Precision Measuring Instruments, Part 1 186068 $68.00 10 hours Electric Drilling and Grinding Tools 186054 $68.00 5 hours Power Cutting Tools 186055 $68.00 5 hours Pneumatic Hand Tools 186056 $68.00 5 hours Preventive Maintenance 286085 $68.00 5 hours Preventive Maintenance Techniques 286086 $68.00 5 hours Year 2 Reading Prints and Schematics Block X25 $816.00 96 hours Introduction to Print Reading 186080 ($68.00) (8 hours) Print Reading Symbols and Abbreviations 186081 ($68.00) (8 hours) Dimensioning and Tolerancing 186082 ($68.00) (8 hours) Print Reading Applications 186083 ($68.00) (8 hours) Building Drawings 186043 ($68.00) (8 hours) Electrical Drawings and Circuits 186044 ($68.00) (8 hours) Electronic Drawings 186045 ($68.00) (8 hours) Hydraulic and Pneumatic Drawings 186046 ($68.00) (8 hours) Piping: Drawings, Materials, and Parts 186047 ($68.00) (8 hours) Welding Symbols 186048 ($68.00) (8 hours) Sheet Metal Basics 186049 ($68.00) (8 hours) Sketching 186050 ($68.00) (8 hours) Reading Architects' Blueprints 1842A-C $204.00 30 hours Properties of Materials 686005 $68.00 10 hours Elements of Chemistry 5011 $68.00 10 hours Principles of Mechanics, Part 1 286007 $68.00 10 hours Principles of Mechanics, Part 2 286008 $68.00 10 hours Reading Piping Prints 6732 $68.00 10 hours Year 3 Specification Writing 2175A-B $136.00 60 hours Industrial Plumbing and Pipefitting Block D20 $544.00 40 hours The Trades of Plumbing and Pipefitting 286040 ($68.00) (5 hours) Pipes, Fittings, and Valves 286041 ($68.00) (5 hours) Plumbing and Pipefitting Tools 286042 ($68.00) (5 hours) Joining and Assembling Pipes 286043 ($68.00) (5 hours) Supporting, Installing, and Testing Pipes 286044 ($68.00) (5 hours) Plumbing Fixtures and Appliances 286045 ($68.00) (5 hours) Tanks, Pumps, and Boilers 286046 ($68.00) (5 hours) Insulation for Piping and Ducting 286047 ($68.00) (5 hours) Fundamentals of Welding, Part 1 286025 $68.00 10 hours Fundamentals of Welding, Part 2 286066 $68.00 10 hours Common Thermal Cutting Processes 286028 $68.00 10 hours Nature of Electricity 086096 $68.00 5 hours Circuit Analysis and Ohm's Law 086002 $68.00 5 hours Conductors, Insulators, and Batteries 086005 $68.00 5 hours Alternating Current 086007 $68.00 5 hours Alternating Current Circuits 086008 $68.00 5 hours Principles of Heating, Ventilating, and A/C 6447A-B $136.00 20 hours Air Conditioning Systems 6084A-B $136.00 20 hours Bench Work, Part 3 5004C $68.00 10 hours Year 4 Modern Refrigeration and Air Conditioning G14003 $585.00 160 hours Electric Heating 006034 $68.00 10 hours Controls For Air Conditioning 006035 $68.00 10 hours Duct and Piping Design for Air Conditioning 2945 $68.00 10 hours Servicing Gas Appliances 4500B $68.00 10 hours Total HVAC Curriculum Duration: 726 hours Cost: Yr. 1 = $1,999.20 ($1,904+ $95.20 s/h); Yr. 2 = $1,428.00 ($1,360+ $68 s/h); Yr. 3 = $1,642.20 ($1,564+ $78.20 s/h); Yr. 4 = $899.85 ($857 + $42.85 s/h); Number of Exams: 91 Block X21xe "Numerical Index :Block X21 (Basic Industrial Math)"xe "Alphabetical Index :Basic Industrial Math (Block X21)" Basic Industrial Math Duration: 30 hours (includes 6 tests) What Students Learn: This module of six study units offers the trainee arithmetic and basic mathematics, metric measurement, and calculator fundamentals. The Metric System is an introductory unit which includes metric conversions. Problem exercises and examples in this module are presented in on-the-job scenarios with applications drawn from the industrial context. Special Notes: This updated course replaces lessons contained within Practical Math and Measurements, Block X01. Each study unit contains a progress examination. Components: Addition and Subtraction (186008) Multiplication and Division (186009) Fractions, Percents, Proportions, and Angles (186010) Metric System (186011) Formulas (186012) Introduction to Algebra (186013) 186008xe "Numerical Index :186008 (Addition and Subtraction)"xe "Alphabetical Index :& blotitle (186008)" Addition and Subtraction Objectives: Define the terms: whole number, numeral, digit, decimal, place value, addend, sum, minuend, subtrahend, and difference. Explain the significance of the digit zero in a number. Differentiate between concrete and abstract numbers. Properly prepare numbers for addition and subtraction. Perform addition and subtraction on numbers. How to check your answers to both addition and subtraction problems. How to use a calculator to add and subtract numbers. 186009xe "Numerical Index :186009 (Multiplication and Division)"xe "Alphabetical Index :& blotitle (186009)" Multiplication and Division Objectives: Define the terms: factor, multiplicand, multiplier, partial product, dividend, divisor, quotient, and remainder. Recognize the various signs used for multiplication and division. Properly prepare numbers for multiplication and division. Perform multiplication and division on whole numbers and decimals. How to check your answers to both multiplication and division problems. How to find the average of a group of numbers. How to use a calculator to multiply and divide numbers. 186010xe "Numerical Index :186010 (Fractions, Percents, Proportions, and Angles)"xe "Alphabetical Index :& blotitle (186010)" Fractions, Percents, Proportions, and Angles Objectives: Define the terms: fraction, proper fraction, improper fraction, lowest common denominator, percent, ratio, and proportion. How to add, subtract, multiply, and divide fractions and decimals. How to change fractions to decimals and decimals to fractions. Solve problems involving percent. How to use a protractor to measure angles. Lay out templates for checking angles. How to use a calculator to solve percent problems and to convert fractions to decimals. 186011xe "Numerical Index :186011 (Metric System)"xe "Alphabetical Index :& blotitle (186011)" Metric System Objectives: Name the base units most commonly used in the metric system. Identify metric prefixes and their values. Apply conversion factors to increase or decrease metric base units. Estimate lengths in metric units. Express temperature in degrees Celsius. Define the terms: mass, density, force, torque, and pressure. Identify the metric units used to measure each one. How to use a calculator to convert one metric unit to another. 186012xe "Numerical Index :186012 (Formulas)"xe "Alphabetical Index :& blotitle (186012)" Formulas Objectives: Explain the use of letters in formulas. Prepare and use formulas to solve problems. The use of formulas to calculate the perimeter of a triangle and rectangle, distance, area of a triangle, rectangle, and circle, volume of a pyramid, current in a circuit, and volume of a sphere. How to use a calculator to find square root and solve formulas. Transform and solve an equation. Perform basic arithmetic operations with signed terms. Substitute given numerical values for letters in a formula and find the unknown quantity. 186013xe "Numerical Index :186013 (Introduction to Algebra)"xe "Alphabetical Index :& blotitle (186013)" Introduction to Algebra Objectives: Define the terms: term, constant, coefficient, exponent, monomial, trinomial, and polynomial. Identify and combine like terms in an expression. Multiply and divide terms containing exponents. Remove parentheses from an expression and simplify the expression. Perform basic arithmetic operations with signed terms. Block X22xe "Numerical Index :Block X22 (Practical Measurements)"xe "Alphabetical Index :Practical Measurements (Block X22)" Practical Measurements Duration: 25 hours (includes 5 tests) What Students Learn: The five lessons in this block present the trainee with a broad overview of measurements found in an industrial setting. In addition to the basic measurements of length, temperature, energy, force, and power, the trainee will learn how materials are measured and handled in bulk quantities. Fluid measurements include the measuring of fluid flow, fluid pressure, and fluid level. All lessons include the metric conversions in addition to the English units. Special Notes: This updated course replaces the X0105 to X0109 lessons found in Practical Math and Measurements, Block X01. Each study unit contains a progress examination. Components: Linear and Distance Measurement (186021) Bulk Measurement (186022) Temperature Measurement (186023) Energy, Force, and Power (186024) Fluid Measurement (186025) 186021xe "Numerical Index :186021 (Linear and Distance Measurement)"xe "Alphabetical Index :& blotitle (186021)" Linear and Distance Measurement Objectives: Recognize the difference between English and metric units of length. Find the perimeter of rectangular, square, or triangular areas or objects, such as rooms or machine bases, after measuring the sides. Calculate the circumference of circular objects like pipes of tanks after measuring the diameter. Measure lengths with the aid of rigid and flexible rules, thickness gauges and screw pitch gauges. Read a typical vernier scale and micrometer to take precise measurements. 186022xe "Numerical Index :186022 (Bulk Measurement)"xe "Alphabetical Index :& blotitle (186022)" Bulk Measurement Objectives: Measure an angle by degrees. Find the areas of rectangles, triangles, and circles. Find the volumes of prisms, cylinders, and cones. Find the weight of material stored in a container. Determine the amount of material that can be stored or handled. Discuss the types and uses of conveyors and weighing systems. 186023xe "Numerical Index :186023 (Temperature Measurement)"xe "Alphabetical Index :& blotitle (186023)" Temperature Measurement Objectives: Change temperature units from one system to another. Discuss the use of the various types of thermometers. Select the type of thermometer to be used at certain temperatures. 186024xe "Numerical Index :186024 (Energy, Force, and Power)"xe "Alphabetical Index :& blotitle (186024)" Energy, Force, and Power Objectives: Distinguish between the concepts of energy, force, and power. Explain what the term "work" means, and how it is measured. Know by sight the basic machines, lever, inclined plane, wedge, wheel and axle, and screw. Solve simple problems that involve levers, mechanical advantage, and machine efficiency. List the forms of energy that have important industrial applications, and the instruments used for measuring energy. 186025xe "Numerical Index :186025 (Fluid Measurement)"xe "Alphabetical Index :& blotitle (186025)" Fluid Measurement Objectives: Understand the properties of fluids. Determine the density, specific gravity, and viscosity of fluids. Express pressure in three different units. Measure the pressure of fluids using manometers and Bourdon tubs pressure gages. Measure the flow rate of fluids using different types of flowmeters. Block X23xe "Numerical Index :Block X23 (Industrial Safety)"xe "Alphabetical Index :Industrial Safety (Block X23)" Industrial Safety Duration: 35 hours (includes 7 tests) What Students Learn: A newly expanded seven lesson block that provides the trainee with specific instruction for safe work practice in an industrial environment. The block contains an introductory unit that introduces safety philosophies and terminology as well as acquainting the student with OSHA policy and the "Right-to-Know" laws. New units specific to fire safety, pressurized gasses and welding, chemical and electrical hazards, as well as safe machine usage have been added. An updated unit on material handling is included. Special Notes: This updated course replaces Industrial Safety, Block X03. Each study unit contains a progress examination. Components: Trades Safety: Getting Started (186001) Working Safely with Chemicals (186002) Fire Safety (186003) Safe Handling of Pressurized Gasses and Welding (186004) Electrical Safety for the Trades (186005) Material Handling Safety (186006) Machine Shop Safety (186007) 186001xe "Numerical Index :186001 (Trades Safety\: Getting Started)"xe "Alphabetical Index :& blotitle (186001)" Trades Safety: Getting Started Objectives: Preview A thorough knowledge of safe practices is an important part of working in any industrial setting. Every industrial worker should be familiar with accident prevention techniques, fire safety mehods, and the use of personal protective equipment. Injuries in the workplace cost many millions of dollars in medical costs, lost wages, and production losses each year. Many injuries can be prevented by understanding how accidents and injuries can occur. This study unit is designed to help trainees understand why safety is so important, and to present students with information about safety that goes beyond common sense. Objectives When a student completes this study unit, he and she will be able to: Name the agencies that make and enforce safety regulations and explain an employees responsibilities under those regulations. List the physical hazards associated with chemicals and describe how to avoid those hazards. Name several electrical shock hazards and the techniques used to prevent shocks. List the steps in a lock-out / tag-out procedure. Explain the importance of machine guarding and name several types of machine guards. Name the four classes of fire and how to extinguish each of them. Describe the proper technique used to lift a heavy load. Explain how to avoid hand injuries when using hand and power tools. List some of the hazards involved in welding and hot cutting operations and how to prevent them. Explain how job analysis and the science of ergonomics are used to improve the workplace. Explain the importance of personal protective equipment and name several types of PPE. Contents Introduction; Safety Regulations; Key safety Issues; Protecting Yourself and Your Co-workers. 186002xe "Numerical Index :186002 (Working Safely with Chemicals)"xe "Alphabetical Index :& blotitle (186002)" Working Safely with Chemicals Objectives: Preview This study unit deals with the safe use of chemicals in the workplace. The two primary causes of chemical accidents are the misuse of chemicals and the improper disposal of chemical wastes. Understanding the hazards that chemicals can create is the first step in protecting people from harm. The main goal of this study unit is to provide students with sound, practical knowledge about chemical use and disposal, both in the workplace and at home. You will learn how to recognize common chemical hazards and how to deal with them. Trainees will learn how to perform a job analysis to look for potential chemical dangers in your daily taks. Finally, people will learn how to take precautions to avoid chemical accidents and make all jobs as safe as possible. Objectives When a student completes this study unit, he and she will be able to: Recognize the six different ways in which a chemical can cause physical injury. Name the routes or paths of entry by which chemicals can enter the body. Describe the types of injuries caused by chemicals. Identify potential chemical dangers in your workplace. Describe how to identify, store and label hazardous chemicals. List several methods used to prevent chemical accidents. Explain why proper training is important to chemical handling. Describe the types of personal protective equipment used and worn when handling chemicals. Explain the role of governmental agencies in enforcing chemical regulations. Contents Introduction: Living with Chemicals; Chemical Injuries; Accident Prevention; Handling Hazardous Wastes. 186003xe "Numerical Index :186003 (Fire Safety)"xe "Alphabetical Index :& blotitle (186003)" Fire Safety Objectives: Preview Fires are the most destructive and expensive of all accidents. However, fires can be effectvely prevented through the combined use of technology and common sense. By understanding how fires get started and how to extinguish them, students will have much of the knowledge needed to protect people from fire. This study unit will introduce trainees to the information you need to practice fire safety and prevention in the workplace. Objectives When a student completes this study unit, he and she will be able to: Describe the types of property losses and injuries associated with fires. Explain how fires are ignited. Identify the four classes of fire. Describe the primary fire hazards found in the workplace. Explain the various ways in which fires can be prevented. Describe the operation of several different fixed fire protection systems. Identify the proper type of portable fire extinguisher to use on a fire. Describe the operation of several different types of fire extinguishers. Explain how to defend yourself and others in a fire situation. Describe how to safely evacuate a burning building. Contents Introduction to Fire; Fire Hazards in the Workplace; Preventing Fires; Fixed Fire Protection Equipment; Portable Fire Extinguishers; Fire Protection Techniques. 186004xe "Numerical Index :186004 (Safe Handling of Pressurized Gasses and Welding)"xe "Alphabetical Index :& blotitle (186004)" Safe Handling of Pressurized Gasses and Welding Objectives: Preview This study unit will teach students important safety facts and practices involving the high pressure and low pressure gases used in welding. Covered are the fundamentals of electric arc welding, equipment requirements and proper operating procedures. Trainees will learn general welding safety and specific practices. You will learn about controlling heat sources from welding operations to protect yourself from harm and your facility from fire. Objectives When a student completes this study unit, he and she will be able to: Identify common welding gases and understand how they are used in welding operations. Point out the hazards associated with welding gases. Safely handle and store different types of gas cylinders. Safely operate a basic gas welding setup. Recognize the safety considerations involved in the setup and operation of electric arc welding equipment. Identify welding equipment malfunctions and take corrective action. Utilize fire prevention and protection methods specific to welding operations. Discuss the importance of the hot work permit program in your facility. Explain the correct use of protective clothing and equipment for welding. Utilize proper ventilation when welding. Effectively deal with confined spaces when performing welding operations. Contents Safety in Welding and Cutting; Safe Handling and Storage of Gas Cylinders; Use of Oxy-fuel Welding and Cutting Systems; Safe Operation of Welding Equipment; Safe Use of Electric Arc Welding Equipment; Protection of Welders and Welding Facilities. 186005xe "Numerical Index :186005 (Electrical Safety for the Trades)"xe "Alphabetical Index :& blotitle (186005)" Electrical Safety for the Trades Objectives: Preview This study unit will introduce students to many workplace situations that require you to work safely with electricity. You will learn how and why electricity can be dangerous. Trainees will also learn about various methods used for protection. Safety begins with the careful installation of electrical components by means of approved wiring methods. You should use safety procedures and practices that insulate you from electricity's power anytime you work with, or near, electrical equipment and components. Objectives When a student completes this study unit, he and she will be able to: Explain how electricity can harm you and your property. Discuss the importance of properly using quality electrical components. Follow the basic methods of protection when wiring electrical installations. Tell why it is important to ground electrical equipment and systems. Select the type of electrical equipment to use in a hazardous location. List the safety practices required in an electrical work area. Talk about the importance of a clear working space around electrical equipment. Educate your own level of safety training to be sure it matches the electrical work you are performing. Contents Introduction to Electrical Safety; Using Proper Materials and Components; Equipment Grounding; Hazardous Locations; Safe Working Clearances; Safety Practices. 186006xe "Numerical Index :186006 (Material Handling Safety)"xe "Alphabetical Index :& blotitle (186006)" Material Handling Safety Objectives: Preview This study unit introduces the safe techniques and work practices commonly used when handling manufacturing and industrial materials. Trainees will learn the procedures necessary to avoid physical injury to yourself and those working with you, for both manual handling methods and mechanical handling methods. You will also learn procedures that minimize damage to the materials being moved and to facility property. Knowing the proper procedures will also give you the insight to decide when mechanical handling is necessary, or preferred, over traditional physical handling. Objectives When a student completes this study unit, he and she will be able to: Recognize the hazards associated with handling materials. Know the types of injuries that can be caused by these hazards. Understand how to effectively use safe material handling practices. Know how to avoid physical injury when handling loads. Know and follow the rules for safe operation of powered industrial material handling equipment. Understand and respect the limits and restrictions placed on powered material handling mechanisms. Contents Introduction to Material Handling; Housekeeping and Storage; Material Handling Equipment; Hoists and Cranes. 186007xe "Numerical Index :186007 (Machine Shop Safety)"xe "Alphabetical Index :& blotitle (186007)" Machine Shop Safety Objectives: Preview In this study unit, trainees will gain a better understanding of the work practices necessary to operate industrial machinery, such as a bench-top drill press or a ten ton mechancial poewer press, safely. You will learn how the principles and practices used to keep ypu safe from injury can be incorporated into your daily routine. Providing a safe work enviornment is the responsibility of the employer. It is the employees responsibility to work safely at all times, especially when using power driven machinery. Awareness and sound practice of the safety procedures you'll learn offer your best defense against workplace injuries. In this study unit, students will learn the skills needed to become a productive and safe industrial machine operator. Objectives When a student completes this study unit, he and she will be able to: Recognize the basic machine motions that can present a hazard to workers. Recognize the types of machinery most likely to be hazardous to workers. Understand the types of injuries caused by accidents commonly associated with unsafe machine operating procedures. Discuss the importance of machine guarding and how to incorporate methods of guarding to avoid physical injury. Recognize the four basic types of machine guards commonly used in industry. Control various forms of hazardous machine energy through the use of lockout / tagout procedures. Understand how and why to properly use personal protective equipment for added protection when using industrial equipment. Contents Introduction to Machine Safety; Machine Safeguarding; Types of Machinery; Machine Controls and Control Equipment; Protective Equipment and Procedures. 186034xe "Numerical Index :186034 (Jobs, Companies, and the Economy\: Basic Concepts for Employees)"xe "Alphabetical Index :Jobs, Companies, and the Economy\: Basic Concepts for Employees (186034)" Jobs, Companies, and the Economy: Basic Concepts for Employees Duration: 5 hours (includes 1 test) What Students Learn: Recognition of how the economy affects the actions of companies, employees, consumers, and investors. The concept of capitalism and the principles of supply and demand. How government policies affect the amounts of saving, spending, and investing by companies and individuals. Understand economic measuring tools such as the inflation rate, the unemployment rate and Gross Domestic Product (GDP). How labor is divided into three employment sectors and how wages are set, including the influence of labor unions and the benefits of a multi-functional workforce. Recognition of how both the employee and the company must compete in an increasingly international marketplace. Special Notes: This updated course replaces How Our Economic System Works, study unit 6606, and Economics Today, study unit 186034. 186036xe "Numerical Index :186036 (Quality Concepts\: Tools and Applications)"xe "Alphabetical Index :Quality Concepts\: Tools and Applications (186036)" Quality Concepts: Tools and Applications Duration: 5 hours (includes 1 test) What Students Learn: Describe how job roles change as a company evolves in its quality consciousness. Explain several ways in which you can support TQM. Identify approaches, practices and skills associated with positive organizational change. Differentiate between the "change process" at the company level and the manufacturing processes that require improvement. Describe major causes of process variation and give examples of how they may affect you in your job. Explain why and how the reduction of variability is a key factor in process improvement. Describe why and how quality and process improvement depend on data-driven decision making. Identify seven quality tools and explain their uses. 186052xe "Numerical Index :186052 (Common Hand Tools, Part 1)"xe "Alphabetical Index :Common Hand Tools, Part 1 (186052)" Common Hand Tools, Part 1 Duration: 5 hours (includes 1 test) Course Prerequisites: Basic Industrial Math (Block X21) Practical Measurements (Block X22) Trades Safety: Getting Started (186001) What Students Learn: Preview In the first part of a students introduction to hand tools, you'll learn about various types of tools as well as how to use them safely. You'll also learn how workpieces are held in place, the manner in which workpieces are marked prior to actually starting a given job, and how to make the most of a workbench's many useful features. Next, students will be introduced to a group of hand tools which most technicians use on a daily basis -- wrenches, pliers, screwdrivers, and hammers. Again, you'll learn the correct ways to safely use and take care of these tools. Equally important, students will learn how not to use these tools and the results of their improper use. Objectives When a student completes this study unit, he and she will be able to: Identify common hand tools and their function. Explain how to safely use common hand tools. Maintain most types of hand tools. Describe the benefits of several special features available for some hand tools. Contents Working with Hand Tools; Wrenches; Pliers; Screwdrivers; Striking Tools; Tool Storage and Benchwork. 186053xe "Numerical Index :186053 (Common Hand Tools, Part 2)"xe "Alphabetical Index :Common Hand Tools, Part 2 (186053)" Common Hand Tools, Part 2 Duration: 5 hours (includes 1 test) Course Prerequisites: Basic Industrial Math (Block X21) Practical Measurements (Block X22) Trades Safety: Getting Started (186001) What Students Learn: Preview In this study unit, we'll continue the discussion of hand tools commonly used by technicians. While a broad range of technicians use many of the tools discussed here, such as chisels and punches, many others are more specialized and are commonly used by maintenance and machine trades technicians. Students will learn how to choose the correct chisel or punch for the job, how to care for it, and use it safely. Next, you'll learn about the variety of different cutting tools such as snips, knives, and hacksaws. Another important group of tools is shaping tools, such as files. Students will learn the different types of files, and again, how to care for them, and use them safely. Also discussed in this unit are various specialized maintenance tools. These are tools used for specific types of maintenance jobs such as pulling or prying objects from machines, safely inspecting machines, and retrieving objects in areas that aren't easily accessible to the technician. Objectives When a student completes this study unit, he and she will be able to: Identify and use various chisels and punches safely. Use and care for cutting tools. Understand the need for specialized maintenance tools. Correctly use threading and other precision tools. Contents Struck Tools; Cutting Tools; Sheet Metal Tools; Shaping Hand Tools; Hand Tools for Threading and other Precision Work; Specialized Maintenance Hand Tools. 186068xe "Numerical Index :186068 (Precision Measuring Instruments, Part 1)"xe "Alphabetical Index :Precision Measuring Instruments, Part 1 (186068)" Precision Measuring Instruments, Part 1 Duration: 10 hours (includes 1 test) What Students Learn: Purpose and Language of Measurement; Scale Instruments and Accessories; Vernier Caliper; Micrometers, Gages, and Protractors. Special Notes: This updated course replaces course 3500A. The entire course consists of study units 186068, 186069, and 3500C. 186054xe "Numerical Index :186054 (Electric Drilling and Grinding Tools)"xe "Alphabetical Index :Electric Drilling and Grinding Tools (186054)" Electric Drilling and Grinding Tools Duration: 5 hours (includes 1 test) Course Prerequisites: Basic Industrial Math (Block X21) Practical Measurements (Block X22) Trades Safety: Getting Started (186001) What Students Learn: Preview The electric drill is one of the most widely used power tools. It has many uses and is simple to operate. Electric drills can be found in a variety of shapes and sizes, from a light household duty to the heavy-duty industrial grade hand drill and drill press. One variation of the electric drill is the hammer drill or rotary hammer. The hammer drill is a tool used for making holes in concrete and masonry. Grinders are commonly used for shaping and finishing metal and other materials. Hand grinders are available in sizes ranging from those designed to do the intricate work of the die grinder to that of the 7-inch heavy-duty disc grinder. Bench grinders are standard equipment in most shops, ranging from a 6-inch bench model to the heavy-duty 12-inch pedestal grinder. Objectives When a student completes this study unit, he and she will be able to: Safely set up and operate a portable electric drill, electric drill press, and electric hammer. Choose the proper drill bit for many drilling applications. Set up and use a variety of hand and bench grinders. Safely use the proper grinder for various jobs. Follow the necessary steps for proper tool maintenance. Purchase the proper drilling tool for your application. Contents Electric Drills; Drill Presses; Drill Bits; Hammer Drills and Rotary Hammers; Electric Grinders; Abrasives. 186055xe "Numerical Index :186055 (Power Cutting Tools)"xe "Alphabetical Index :Power Cutting Tools (186055)" Power Cutting Tools Duration: 5 hours (includes 1 test) Course Prerequisites: Basic Industrial Math (Block X21) Practical Measurements (Block X22) Trades Safety: Getting Started (186001) What Students Learn: Preview Power cutting tools fall into two categories: portable and stationary. Portable and stationary cutting tools perform many similar operations, but portable tools, carried easily by hand, are used most often at the job site. Stationary tools are used in workshops and on plant tools. Stationary saws range in size from small shop jigsaws to huge band saws used in paper mills to saw large trees into lumber. This unit introduces students to the most common portable power saws used in construction and repair work, namely circular, saber, jig-, and reciprocating saws, and the stationary cutting tools found in most maintenance and fabrication shops. Objectives When a student completes this study unit, he and she will be able to: Identify the most common portable and stationary power saws. Identify the various parts of a saw and explain how they work. Discuss the types of cuts made by each type of saw. Choose the most appropriate saw and blade for the type of work being done. Recognize a portable circular saw, name its parts, and (with practice) operate it safely. Select and (with practice) use the proper saw; saber saw, portable band saw, reciprocating saw, cut-out saw, cut-off saw, for a given application. Operate (with practice) the stationary circular, radial, band and scroll saws safely. Observe the various safety precautions when using power saws and stationary power tools. Contents Power Saw Safety; Portable Power Saws; Stationary Circular Power Saws; Other Stationary Power Saws. 186056xe "Numerical Index :186056 (Pneumatic Hand Tools)"xe "Alphabetical Index :Pneumatic Hand Tools (186056)" Pneumatic Hand Tools Duration: 5 hours (includes 1 test) Course Prerequisites: Basic Industrial Math (Block X21) Practical Measurements (Block X22) Trades Safety: Getting Started (186001) What Students Learn: Preview Pneumatic tools are used in many areas of maintenance, construction, and production work. These tools harness the power of compressed air and convert this power to useful work. Compressed air can be a very powerful energy source. However, due to this power, you must be extremely careful when using these tools. Pneumatic tools are normally made much heavier than standard-duty hand and power tools. You will notice this fact as soon as you lift an impact wrench or framing nailer. The cases of the tools are made intentionally heavy to contain the stresses of the impact hammers or piston and to absorb the normal day-to-day abuse that the tool takes. You have probably seen someone remove a tire's lug nuts with a pneumatic impact wrench. The operator picks up the wrench and blasts off four or five bolts. Next, the wrench is dropped the six inches or so to the floor while the operator's hands move to quickly grab the wheel and rim. Come back to this same shop a year later, and you will probably see the same wrench being used after thousands of tires have come and gone. The tool's case may be nicked and grooved, but if properly cleaned and lubricated, the tool could last for many thousand more tires. This text discusses the selection, use and safe practices of using different types of pneumatic tools. Objectives When a student completes this study unit, he and she will be able to: Describe the various pneumatic tools used for plant maintenance. Identify and describe the safe use of impact, cutting, and grinding tools. Explain how pneumatic hammers, nailers, and staplers are selected and used in a safe manner. Describe the use of pneumatic assembly tools such as grinders, sanders, screwdrivers, and drills and how other types of production tools are selected and used. Identify the proper procedures for pneumatic tool and system care. Identify safe tool use procedures and how vibration and excess noise can cause bodily injury. Contents Pneumatic Tools for Maintenance; Pneumatic Tools for Construction; Pneumatic Tools for Production and Assemble; Pneumatic Tool Care; Using Pneumatic Tools Safely. 286085xe "Numerical Index :286085 (Preventive Maintenance)"xe "Alphabetical Index :Preventive Maintenance (286085)" Preventive Maintenance Duration: 5 hours (includes 1 test) Course Prerequisites: Basic Industrial Math (Block X21) Practical Measurements (Block X22) Trades Safety: Getting Started (186001) What Students Learn: Preview The purpose of a preventive maintenance program is to locate possible machine or equipment faults before the machine fails. Objectives When a student completes this study unit, he and she will be able to: Describe the function of inspection and scheduled maintenance as the basis of preventive maintenance. Explain why preventive maintenance is performed and how it's scheduled. Identify those within industry who should be part of preventive maintenance planning and execution. Discuss the causes, effects, and goals of a successful preventive maintenance program. Explain how a computerized preventive maintenance program can be developed and implemented. Contents Introduction To Preventive Maintenance; Why Perform Preventive Maintenance?; Scheduling Preventive Maintenance; PM Program Personnel; PM Program Goals; Computerized PM Programs. 286086xe "Numerical Index :286086 (Preventive Maintenance Techniques)"xe "Alphabetical Index :Preventive Maintenance Techniques (286086)" Preventive Maintenance Techniques Duration: 5 hours (includes 1 test) Course Prerequisites: Basic Industrial Math (Block X21) Practical Measurements (Block X22) Trades Safety: Getting Started (186001) What Students Learn: Preview How to implement a preventive maintenance (PM) program is just as important as the why and when of such a program. It doesn't pay to create a well thought out and scheduled PM program only to have the lubrication, inspection, or repair tasks performed improperly. The objective of this unit is to show you how to perform these tasks safely and properly. This will include showing you typical PM tasks as they are performed on common industrial equipment. Objectives When a student completes this study unit, he and she will be able to: Explain how to inspect and properly maintain a belt, chain, and gearbox power transmission system. Discuss why proper alignment is necessary when operating a power transmission system. List the steps needed to properly maintain an AC or DC motor. Explain how to perform a start-up or bump test of a motor. Describe how to perform PM tasks on pneumatic systems. Describe how to maintain both floor and elevated conveyor systems. Identify the types of elevators and vertical lifts in your plant and the proper PM procedures for this equipment. Explain how to maintain liquid and vacuum pump systems. Describe how to perform a basic alignment of in-line shafts. List the proper PM procedures for electronic controllers and robot systems. Contents PM Of Power Transmission Systems; PM Of Electric Motors And Controllers; PM Of Pneumatic Systems; PM Of Conveyors; PM Of Vertical Lifts; PM Of Vacuum And Fluid Pumps; PM Of Electronic Controllers; PM Of Robots. Block X25xe "Numerical Index :Block X25 (Reading Prints and Schematics)"xe "Alphabetical Index :Reading Prints and Schematics (Block X25)" Reading Prints and Schematics Duration: 96 hours (includes 12 tests) Course Prerequisites: Basic Industrial Math (Block X21) What Students Learn: This block introduces the trainee to the various types of prints, drawings, and schematics used in an industrial environment. The trainee will learn how to read and interpret the different types of standard symbols and abbreviations found on these drawings. This block will benefit trainees entering any industrial trade. Each study unit contains a progress examination. Special Notes: This updated course replaces Reading prints and Schematics, Block X05. Each study unit contains a progress examination. Components: Introduction to Print Reading (186080) Print Reading Symbols and Abbreviations (186081) Dimensioning and Tolerancing (186082) Print Reading Applications (186083) Building Drawings (186043) Electrical Drawings and Circuits (186044) Electronic Drawings (186045) Hydraulic and Pneumatic Drawings (186046) Piping: Drawings, Materials, and Parts (186047) Welding Symbols (186048) Sheet Metal Basics (186049) Sketching (186050) 186080 Introduction to Print Reading What Students Learn: Describe the basic format for conveying technical information in a drawing Interpret the various drawing views used in technical drawings Extract information from notes and title blocks Recognize and interpret the different line types used in drawings Understand the concept of drawing scale and how it affects information shown in the drawing Identify various types of building, electrical, and mechanical drawings Special Note: This study unit takes the place of study units 186039 and 6719A. 186081 Print Reading Symbols and Abbreviations Course Prerequisite: Introduction to Print Reading (186080) What Students Learn: Recognize, understand, and interpret the most common abbreviations used on a wide range of drawing types used in construction and maintenance trades Understand and interpret the various symbols and notations used on drawings for electrical, architectural, mechanical, welding, fluid power, and other types of applications Explain how symbols are used to show standard materials, parts, and assemblies Special Note: This study unit takes the place of study units 186041 and 6719B. 186082 Dimensioning and Tolerancing Course Prerequisite: Introduction to Print Reading (186080) What Students Learn: Recognize the international standards and conventions that apply to drawings Explain how different numbering systems were developed and how they are applied to prints Read and interpret various systems of dimensions and tolerances on drawings Recognize and interpret common symbols and nomenclature used in geometric dimensioning and tolerancing (GD&T) systems 186083 Print Reading Applications Course Prerequisite: Introduction to Print Reading (186080) Print Reading Symbols and Abbreviations (186081) Dimensioning and Tolerancing (186082) What Students Learn: Work with standard drawing formats to obtain information such as part titles, part numbers, dimensional standards, revisions, and materials Explain how various components shown on prints are connected or related to each other Obtain information from a drawing about quantities, materials, assembly processes, or dimensions Visualize the three-dimensional parts and assemblies represented by two-dimensional drawings Effectively interpret electrical, architectural, mechanical, fluid power, and other types of prints. Special Note: This study unit takes the place of study unit 186042. 186043xe "Numerical Index :186043 (Building Drawings)"xe "Alphabetical Index :& blotitle (186043)" Building Drawings Objectives: Identify the various kinds of building drawings. Compare elevations, plans, and sections. Match the symbols used on drawings with the various building materials they stand for. Interpret the explanations and abbreviations used on building drawings. Read steel and concrete structural drawings. 186044xe "Numerical Index :186044 (Electrical Drawings and Circuits)"xe "Alphabetical Index :& blotitle (186044)" Electrical Drawings and Circuits Objectives: Identify electrical construction drawings, schematics, and wiring diagrams. Interpret various electrical symbols. Read standard abbreviations used in electrical diagrams. Tell if a diagram is a block diagram, a schematic diagram, or a wiring diagram. Compare closed circuits, open circuits, grounded circuits, and short circuits. 186045xe "Numerical Index :186045 (Electronic Drawings)"xe "Alphabetical Index :& blotitle (186045)" Electronic Drawings Objectives: Identify and interpret the various electronics symbols used on drawings. Identify and interpret the various types of drawings used in the electronics field. 186046xe "Numerical Index :186046 (Hydraulic and Pneumatic Drawings)"xe "Alphabetical Index :& blotitle (186046)" Hydraulic and Pneumatic Drawings Objectives: Graphic symbols for lines, flows, and reservoirs. Pump and valve symbols. Fluid circuit and air circuit components. Graphical, circuit, cutaway, pictorial, and combined diagrams. 186047xe "Numerical Index :186047 (Piping\: Drawings, Materials, and Parts)"xe "Alphabetical Index :& blotitle (186047)" Piping: Drawings, Materials, and Parts Objectives: Define the term "piping drawings." Recognize plans, elevations, and sectional views. Identify a view by its placement on a drawing. List what working drawings include. Evaluate whether or not a freehand sketch serves its intended purpose. Interpret the standard symbols and abbreviations and "read" the color coding on piping in industrial and power plants. Interpret dimensions marked on piping drawings. 186048xe "Numerical Index :186048 (Welding Symbols)"xe "Alphabetical Index :& blotitle (186048)" Welding Symbols Objectives: Identify by name the welding processes commonly used in plant maintenance work. Name the best welding processes for a given welding job. Identify by sight, the basic joint and groove designs used in welding. Identify by sight the basic types of welds and describe their uses. Interpret the weld symbols most often found in the drawings used in plant maintenance work. 186049xe "Numerical Index :186049 (Sheet Metal Basics)"xe "Alphabetical Index :& blotitle (186049)" Sheet Metal Basics Objectives: Identify sheet metal of known material and thickness by page and weight. Figure allowances for bends, circumferences, seams, locks, and edges. Know when and where to cut relief radi. Catalog and identify by sight the various seams, locks, and edges. Name and describe the major tools and machines used in sheet metal working. Explain how large fittings can be constructed. List the characteristics of PVC and PVF sheet and laminates. 186050xe "Numerical Index :186050 (Sketching)"xe "Alphabetical Index :& blotitle (186050)" Sketching Objectives: Use the right techniques for sketching straight and curved lines, and circles and arcs. Draw, with practice, multiview sketches of simple objects that accurately show all the details of the objects. Draw dimension sketches of simple machine parts with enough detail that parts can be made. Draw, with practice, realistic sketches of objects that have simple rectangular and circular shapes. 1842A-Cxe "Numerical Index :1842A-C (Reading Architects' Blueprints)"xe "Alphabetical Index :Reading Architects' Blueprints (1842A-C)" Reading Architects' Blueprints Duration: 30 hours (includes 3 tests) What Students Learn: This text explains the use of drawings in representing buildings and the relation between drawings, blueprints, and specifications. PART 1 (1842A). Blueprints; Drawings and Specifications; Scale Detail; Use of the Scale; Indications of Materials; Parts of Buildings; Steel Framing Plans; Drawings for Reinforced Concrete; Frame Buildings; Doors and Windows. PART 2 (1842B). Interior Woodwork; Stairs; Plumbing; Heating; Drawing for a Residence. PART 3 (1842C). Plans, Elevations, and Details; Drawings of an Apartment Building. Special Notes: Includes 5 blueprints. 686005xe "Numerical Index :686005 (Properties of Materials)"xe "Alphabetical Index :Properties of Materials (686005)" Properties of Materials Duration: 10 hours (includes 1 test) Course Prerequisites: Formulas (186012) Practical Measurements (Block X22) What Students Learn: Effects of Forces on Materials; Stress and Deformation; Elastic Failure; Cohesive Properties of Solids; Heat and Cold Treatment; Modulus of Elasticity; Temperature Stresses; Structural Members; Tension Members; Shear; Connection of Steel Members; Members Subjected to Compound Stress; Beams; Columns; Shafts; Rope Drives; Properties of Metals, Nonferrous Metal, and Alloys. Special Notes: This updated course replaces course 5896. 5011xe "Numerical Index :5011 (Elements of Chemistry)"xe "Alphabetical Index :Elements of Chemistry (5011)" Elements of Chemistry Duration: 10 hours (includes 1 test) Course Prerequisites: Practical Measurements (Block X22) What Students Learn: Chemistry and Matter; Chemical and Physical Changes; Chemical Classification of Matter, Elements, Compounds, Mixtures; Atoms and Molecules; Dalton's Atomic Theory; Atomic Weights; Molecular Weights; Electron Theory of the Structure of the Atom; Study of Electrons, Protons, Neutrons, Atomic Structure of Elements; Fundamental Laws of Chemistry; Laws of Conservation of Matter and Energy; Law of Definite Proportions; Valence Formulas; Equations; Typical Problems in Chemistry; Solutions; Metals, Nonmetals, Acids, Bases, and Salts; Ions and Theory of Ionization; Conductivity, pH, Electrolysis, Electroplating; Periodic Grouping of the Elements; Properties and Uses of Metallic and Nonmetallic Elements and Their Compounds; Nuclear Energy; Organic Chemistry; Structural Formulas, Hydrocarbons, Fatty Acids, Carbohydrates, Aromatic Compounds, Plastics. 286007xe "Numerical Index :286007 (Principles of Mechanics, Part 1)"xe "Alphabetical Index :Principles of Mechanics, Part 1 (286007)" Principles of Mechanics, Part 1 Duration: 10 hours (includes 1 test) Course Prerequisites: Basic Industrial Math (Block X21) Practical Measurements (Block X22) Practical Geometry and Trigonometry (5567) What Students Learn: Matter and Energy; Scope of Mechanics; Forms of Matter; Forms of Energy; Physical Properties of Bodies; Motion of Bodies; Velocity; Acceleration and Retardation; Weight and Mass; Work and Energy; Coordinate Systems; Precision in Computations; Newton's Laws of Motion; Uniform Motion; Variable Motion. Special Notes: This updated course replaces course 6426A. The entire course consists of study units 286007-286008. 286008xe "Numerical Index :286008 (Principles of Mechanics, Part 2)"xe "Alphabetical Index :Principles of Mechanics, Part 2 (286008)" Principles of Mechanics, Part 2 Duration: 10 hours (includes 1 test) Course Prerequisites: Basic Industrial Math (Block X21) Practical Measurements (Block X22) Practical Geometry and Trigonometry (5567) What Students Learn: Friction; Nature of Friction; Sliding Friction; Rolling Friction; Machine Elements; Levers; Inclined Plane; Wedges and Screw Threads; Wheel and Axle; Tackle; Pulleys; Gearing; Belts and Chains; Simple Harmonic Motion Centrifugal Force. Special Notes: This updated course replaces course 6426B. The entire course consists of study units 286007-286008. 2175A-Bxe "Numerical Index :2175A-B (Specification Writing)"xe "Alphabetical Index :Specification Writing (2175A-B)" Specification Writing Duration: 60 hours (includes 2 tests) What Students Learn: PART 1 (2175A). Specifications and Other Contract Documents; Knowledge Required for Writing Specifications; Specification Language; Outline Specifications; Preliminary Writing Procedures; Specifying Materials. PART 2 (2175B). Instruction to Bidders; General Conditions; Modifications and Supplementary General Conditions; Forms of Proposal; Excavating and Grading; Concrete; Masonry; Miscellaneous Ironwork; Rough Carpentry; Finish Carpentry; Roofing and Sheet Metal Work; Metal Windows; Glass and Glazing; Caulking; Plastering; Structural Glass; Marble and Ceramic Tile; Vinyl Tile; Painting; Finishing Hardware. Special Notes: Includes 13 drawings. 6732xe "Numerical Index :6732 (Reading Piping Prints)"xe "Alphabetical Index :Reading Piping Prints (6732)" Reading Piping Prints Duration: 10 hours (includes 1 test) Course Prerequisites: Practical Measurements (Block X22) Elements of Print Reading (6719A-B) What Students Learn: Basic Drawing Information; Kinds of Drawings; Dimensions, Symbols and Abbreviations; Descriptions of Piping Drawings; Pipe Materials and Methods of Manufacture; Valves; Piping Accessories; Piping Assembly; Fluid-Power Diagrams; Examples of Piping Drawings. Block D20xe "Numerical Index :Block D20 (Industrial Plumbing and Pipefitting)"xe "Alphabetical Index :Industrial Plumbing and Pipefitting (Block D20)" Industrial Plumbing and Pipefitting Duration: 40 hours (includes 8 tests) What Students Learn: The eight lessons in this block provide the trainee with the skills and knowledge needed to perform those tasks associated with the trades of plumber and pipefitter. The program includes coverage of the most widely accepted materials used for pipe, fittings, and valves. The trainee will learn how to use the tools of the trades, with an emphasis on safety. In addition, the methods used to join pipe, and the procedures for supporting, installing, and testing piping systems, are discussed in detail. Common plumbing fixture installation and maintenance, along with a review of tanks, pumps, and boilers, are covered. Special Notes: This updated course replaces Industrial Plumbing and Pipefitting, Block D10. Each study unit contains a progress examination. Components: The Trades of Plumbing and Pipefitting (286040) Pipes, Fittings, and Valves (286041) Plumbing and Pipefitting Tools (286042) Joining and Assembling Pipes (286043) Supporting, Installing, and Testing Pipes (286044) Plumbing Fixtures and Appliances (286045) Tanks, Pumps, and Boilers (286046) Insulation for Piping and Ducting (286047) 286040xe "Numerical Index :286040 (The Trades of Plumbing and Pipefitting)"xe "Alphabetical Index :& blotitle (286040)" The Trades of Plumbing and Pipefitting Objectives: Identify the differences between "plumbing" and "pipefitting." Discuss the basic concepts of codes and standards. Relate information about the different types of mechanical systems in buildings. Demonstrate basic skills for blueprint reading. Identify the terms: blueprints, architectural drawings, working drawings, manufacturers' specifications and job specifications. Relate the basic concepts of blueprint reading. Use a measuring scale. Identify symbols and abbreviations used on working drawings. Locate specifications pertaining to a specific material or system. Explain how different types of plumbing and piping systems are categorized. 286041xe "Numerical Index :286041 (Pipes, Fittings, and Valves)"xe "Alphabetical Index :& blotitle (286041)" Pipes, Fittings, and Valves Objectives: Identify and classify the different types of material that are used to manufacture pipes, fittings, and valves. List the characteristics of the various types of pipes, fittings, and valves available. Classify and identify pipe "markings." Know how to "read" a fitting for ordering purposes. Identify the various types of valves and know their components. Perform basic valve maintenance and know proper installation techniques. Select and specify pipes, fittings, and valves for a particular application. 286042xe "Numerical Index :286042 (Plumbing and Pipefitting Tools)"xe "Alphabetical Index :& blotitle (286042)" Plumbing and Pipefitting Tools Objectives: Identify the various tools available for various tasks by appearance. Demonstrate your knowledge of job safety and tool safety. Identify the tools required to join and assemble pipes of different material composition. Determine when and how to use pipe-joint assembly tools. Identify the tools required to perform layout, cutting, and boring tasks. Identify the tools needed for testing and maintaining piping systems. Determine when and how to use finishing, testing, and maintenance tools for piping systems. 286043xe "Numerical Index :286043 (Joining and Assembling Pipes)"xe "Alphabetical Index :& blotitle (286043)" Joining and Assembling Pipes Objectives: List necessary precautions to be taken when working with materials or procedures to join pipes. Cut pipe lengths manufactured from the various pipes materials, as required by a piping system layout. Prepare and assemble the various pipe joints you learned earlier. Identify the materials, tools, and equipment needed for pipe. Perform basic pipe welding tasks. 286044xe "Numerical Index :286044 (Supporting, Installing, and Testing Pipes)"xe "Alphabetical Index :& blotitle (286044)" Supporting, Installing, and Testing Pipes Objectives: Lay out, install, and align a piping system either inside a building or underground. Properly support a piping system using the various available methods, taking into account thermal expansion and contraction. Identify methods and materials used to protect piping installations. Calculate pipe offsets to avoid obstructions when laying out and installing a piping system. Test different types of piping systems for defective materials or faulty workmanship. 286045xe "Numerical Index :286045 (Plumbing Fixtures and Appliances)"xe "Alphabetical Index :& blotitle (286045)" Plumbing Fixtures and Appliances Objectives: Recognize trade terms used to categorize and describe plumbing components. Identify the different types of plumbing fixtures, trim, appliances, and appurtenances. Explain the procedures used for installing plumbing fixtures and trim. Discuss common maintenance problems and corrective action for plumbing components. 286046xe "Numerical Index :286046 (Tanks, Pumps, and Boilers)"xe "Alphabetical Index :& blotitle (286046)" Tanks, Pumps, and Boilers Objectives: Identify and classify the various available tanks. Specify and size round and rectangular tanks, and sumps, for a particular application. Identify different pumps and know pump principles. Discuss pump installation, start-up, and maintenance procedures. List the characteristics of boilers and discuss their classifications. Identify boiler accessories and know basic boiler maintenance. 286047xe "Numerical Index :286047 (Insulation for Piping and Ducting)"xe "Alphabetical Index :& blotitle (286047)" Insulation for Piping and Ducting Objectives: Identify and understand the function and types of different piping and ducting insulation materials. Select the proper insulation type, material, and thickness for a given piping system. Properly cut, form, and install insulation and shielding to piping and ducting. 286025xe "Numerical Index :286025 (Fundamentals of Welding, Part 1)"xe "Alphabetical Index :Fundamentals of Welding, Part 1 (286025)" Fundamentals of Welding, Part 1 Duration: 10 hours (includes 1 test) What Students Learn: Introduction to Welding; Definitions of Weld, Braze, and Braze Weld; Oxyfuel Gas Welding (OFW); Arc Welding (AW); Resistance Welding (RW); Solid-State Welding (SSW); The Brazing Welding Process; Soldering Process; Other Welding Processes. Special Notes: This updated course replaces course 6167. The entire course consists of study units 286025 and 286066. 286066xe "Numerical Index :286066 (Fundamentals of Welding, Part 2)"xe "Alphabetical Index :Fundamentals of Welding, Part 2 (286066)" Fundamentals of Welding, Part 2 Duration: 10 hours (includes 1 test) What Students Learn: Recognize basic joint designs used in welding Butt, Corner, "T", Lap, and Edge; Selecting the best types of grooves for welding applications; Proper procedures for working on various positions when welding joints on pipes; Interpreting welding symbols, dimensions, and schematics. Special Notes: The entire course consists of study units 286025 and 286066. 286028xe "Numerical Index :286028 (Common Thermal Cutting Processes)"xe "Alphabetical Index :Common Thermal Cutting Processes (286028)" Common Thermal Cutting Processes Duration: 10 hours (includes 1 test) Course Prerequisites: Fundamentals of Welding, Part 1 (286025) Fundamentals of Welding, Part 2 (286066) What Students Learn: Introduces the Process of using Heat to Cut Metal and other Materials; Describes the Common Thermal Cutting Processes used in Industry and the capabilities of each; The Tables to use when Estimating Requirements for specific Cutting Operations; Describe the types of Equipment used for Oxyfuel Gas Cutting; Identify the appropriate Procedures used in Oxygen Cutting Processes. 086096xe "Numerical Index :086001 (Nature of Electricity)"xe "Alphabetical Index :Nature of Electricity (086001)" Nature of Electricity Duration: 5 hours (includes 1 test) Course Prerequisites: Basic Industrial Math (Block X21) What Students Learn: Explain the operation of a simple circuit. Define the terms: conductor, insulator, and resistor. Demonstrate that unlike charges attract and like charges repel. List the dangers and benefits of static electricity. Define the terms: volt, ampere, and ohm. Describe common notations and prefixes used to identify electrical and electronic values. Identify carbon resistors, potentiometers, and rheostats, and explain how they work. Identify the common electrical symbols used in schematic diagrams. Explain the difference between a series and parallel circuit. 086002xe "Numerical Index :086002 (Circuit Analysis and Ohm's Law)"xe "Alphabetical Index :Circuit Analysis and Ohm's Law (086002)" Circuit Analysis and Ohm's Law Duration: 5 hours (includes 1 test) Course Prerequisites: Basic Industrial Math (Block X21) What Students Learn: Find the total resistance in series, parallel, and series-parallel circuits. Use Ohm's law to calculate the current, voltage, or resistance in circuits. Calculate the amount of power supplied and dissipated in a DC circuit. List the steps for finding current, voltage, and resistance with a digital or analog meter. 086005xe "Numerical Index :086005 (Conductors, Insulators, and Batteries)"xe "Alphabetical Index :Conductors, Insulators, and Batteries (086005)" Conductors, Insulators, and Batteries Duration: 5 hours (includes 1 test) Course Prerequisites: Basic Industrial Math (Block X21) What Students Learn: Describe the various types of conductors and discuss their conductivity. Explain the American Wire Gage System of sizing copper conductors. Determine the size of conductor needed for an application. Identify the various types of insulating materials and their temperature ratings. Explain the difference between a dry cell and a storage battery. How to connect cells together to obtain more voltage, more current, or more of both voltage and current. Describe the proper safety precautions used when working with storage batteries. Describe how to properly clean and care for storage batteries. Discuss the instruments used for testing storage batteries. Explain how NiCad, lithium, and other types of special batteries operate, and describe their ratings. 086007xe "Numerical Index :086007 (Alternating Current)"xe "Alphabetical Index :Alternating Current (086007)" Alternating Current Duration: 5 hours (includes 1 test) Course Prerequisites: Basic Industrial Math (Block X21) DC Principles (Block A21) What Students Learn: Draw a graph of an AC voltage and describe how AC voltage is created. Explain AC cycle terms: "alternation," "peak," "positive," and "negative." Define the time period of an AC voltage as expressed in degrees. List the characteristic values of an AC cycle and describe the relationship between the values. Define phase angle and describe how it relates to reactive circuits. Calculate power for single-phase and three-phase circuits. Describe how a 220 VAC single-phase circuit operates. Illustrate the phase relationship of three-phase wave forms. Determine real power by reading a power factor meter. Describe delta and wye three-phase circuit connections. 086008xe "Numerical Index :086008 (Alternating Current Circuits)"xe "Alphabetical Index :Alternating Current Circuits (086008)" Alternating Current Circuits Duration: 5 hours (includes 1 test) Course Prerequisites: Basic Industrial Math (Block X21) DC Principles (Block A21) What Students Learn: Identify electric circuits in terms of their circuit characteristics. List several circuit characteristics that are used to describe a circuit for a particular load application. Connect electrical components in series and parallel circuits. Control loads from one or two switch points. Describe how delta- and wye-connected three phase circuits are different. Explain how grounding a circuit increases its safety. Recognize the difference between control circuits and power circuits. 6447A-Bxe "Numerical Index :6447A-B (Principles of Heating, Ventilating, and Air Conditioning)"xe "Alphabetical Index :Principles of Heating, Ventilating, and Air Conditioning (6447A-B)" Principles of Heating, Ventilating, and Air Conditioning Duration: 20 hours (includes 2 tests) Course Prerequisites: Basic Industrial Math (Block X21) Practical Measurements (Block X22) What Students Learn: PART 1 (6447A). Basic Principles and Matter; Sources of Heat and Measurement of Temperature; Heat Transmission and Measurement; Effects of Heat; Heat and Properties of Mixtures; Heat and Work; Combustion and Heat; Steam. PART 2 (6447B). Weight and Pressure of Gases; Energy, Motion, and Air Velocities; Air and Air Mixtures; Air Movements and Ventilation; Air Conditions and Air Conditioning. 6084A-Bxe "Numerical Index :6084A-B (Air Conditioning Systems)"xe "Alphabetical Index :Air Conditioning Systems (6084A-B)" Air Conditioning Systems Duration: 20 hours (includes 2 tests) What Students Learn: PART 1 (6084A). Comfort Air Conditioning; Heat Transmission through Buildings. PART 2 (6084B). Types of Equipment; Air Distribution Systems; Automatic Controls and Cooling Systems; Noise Elimination, Zoning, and Special Conditions; Heat Pump. 5004Cxe "Numerical Index :5004C (Bench Work, Part 3)"xe "Alphabetical Index :Bench Work, Part 3 (5004C)" Bench Work, Part 3 Duration: 10 hours (includes 1 test) What Students Learn: Fitting Practice; Tolerance, Allowance, Clearance, and Fit; Babbitting; Hack Saw; Band Saw Machine; Clamping Work for Sawing; Soldering; Soft Solder; Soldering Copper; Sweat Soldering; Brazing; Hand Solders and Fluxes; Torch Brazing; Induction Brazing; Furnace Brazing.  ______________________________________________________________________________________ G14003 Modern Refrigeration and Air Conditioning Duration: 152 hours (includes 19 tests) Course Prerequisites: Basic Industrial Math (Block X21) Practical Measurements (Block X22) What Students Learn: Part 1 (H14003). Introduction to Refrigeration: Lesson 1: Refrigeration and Air Conditioning Concepts Conduction and Convection Heat Transfer; Matter and Gas Laws; Refrigeration Process and Components; Handling Refrigerants. Lesson 2: Safety, Tools, and Equipment Pressure Vessels and Piping; Electricity and Moving Machinery Hazards; Refrigerant Contact and Inhalation Effects; Properly Moving Heavy Objects; Hand Tools and Specialized Service Equipment. Lesson 3: Fasteners, Tubing, and Piping Identification and Application of Fasteners; Hanging and Connecting Tubing, Piping and Ducts; Types of Tubing; Solderless Terminals and Wire Connectors. Lesson 4: System Evacuation, Refrigerants, and System Charging System Evacuation Theory, Tools, and Procedures; Leak Detection and System Cleaning; Environmental Effects and Chemical Composition of Refrigerants; Refrigerant Charging Processes. Lesson 5: Calibrating Instruments, Basic Electricity, and Magnetism Charging, Calibration, and Test Tools; Electrical Fundamentals; Electrical Measurement Instruments; Introduction to Electric Circuits and Components. Part 2 (I14003). Refrigeration Systems: Lesson 6: Automatic, Electronic, and Programmable Controls Temperature Sensing Devices and Components; Pressure and Flow Control Devices;Various Troubleshooting Diagrams; Understanding and Troubleshooting Controls and Control Circuits; Types and Uses of Various Controls. Lesson 7: Types and Designs of Electric Motors Motor Components and Applications; Motor Mounts; Drives and Starters; Troubleshoot and Diagnose Various Motor Failures. Part 3 (J14003). Refrigeration Servicing: Lesson 8: Commercial Refrigeration Components Refrigeration Temperatures; Various Types and Functions of Evaporators and Condensers;Refrigeration System Maintenance; Types and Functions of Compressors and Expansion Devices. Lesson 9: Special Commercial Refrigeration Components, Applications, and Troubleshooting Various Commercial Refrigeration Control Devices; Function of Refrigeration System Accessories; Selecting a Commercial Refrigeration System; Defrost Process; Various Types of Ice-making and Vending Machines; Differences Between Land, Sea and Air Cargo Refrigeration; Proper Troubleshooting Techniques and Procedures; Special Refrigerated Applications. Part 4 (K14003). Cooling and Heating: Lesson 10: Basic Heating Systems Types and Functions of Electric Heaters; Components of an Electric Forced-Air Heating System; Preventative Maintenance and Troubleshooting of Electric Heaters and Central Electrical Heating Systems; Types of Gas Furnaces and Their Fuels; Components of a Gas- Fired Forced-Air Furnace; Preventative Maintenance and Troubleshooting of Gas-Fired Furnaces; Identify Fuel Oils; Components of an Oil-Fired Forced-Air Furnace; Preventative Maintenance and Troubleshooting of Oil-Fired Furnaces; Safety Practices Related to Electric, Gas, and Oil Heating Systems. Lesson 11: Additional Heating Systems and Air Quality Operation and Components of Hydronic Heating Systems; Troubleshooting and Preventative Maintenance of Hydronic Heating Systems; Air Quality Problems, Causes, and Treatments; Types and Maintenance of Humidifiers. Lesson 12: Comfort, Air Conditioning, and Air Distribution Variations in Comfort Levels; Psychrometric Charts; Dry-Bulb and Wet-Bulb, Total Heat, and Other Heat Transfers Topics; Equipment and Systems for Air Distribution and Control. Lesson 13: Controls, Operating Conditions, and Troubleshooting Function and Placement of Various Air Conditioning Control Devices; Residential Air Conditioning Systems; Old and New Control Systems; Effects of Relative Humidity on Air Conditioning Systems; Various Grades of Equipment; Tools and Instruments Needed to Troubleshoot an Air Conditioning System Lesson 14: All-Weather Systems Year-Round Air Conditioning; Calculate Airflow in Ductwork; Various Types of All-Weather Systems; Reverse-Cycle Refrigeration; Types of Heat Pumps and Their Troubleshooting Procedures; Operating Principles of Geothermal Heat Pumps 215 216 Part 5 (L14003). Chilled Water Systems and Domestic Appliances Lesson 15: Domestic Appliances Characteristics, Components, and Operation of a Refrigerator; Operation of an Ice Maker; Types of Defrost Systems; Freezer Types and Components; Procedures for Safely Moving and Servicing Freezers; Characteristics and Types of Room Air Conditioning Units; Installation Procedures for Air Conditioning Units; Components, Operation, Functions and Servicing of Air Conditioning Systems. Lesson 16: Chilled-Water Cooling Systems Types, Characteristics, and Components of Chilled-Water Air Conditioning Systems; Operation and Function of Chilled-Water System Components; Preventive Maintenance, Troubleshooting Techniques, and Servicing Procedures for Chilled-Water Cooling Systems. Special Notes: This updated course replaces Modern Refrigeration and Air Conditioning, course A14003. Call Customer Service for pricing and serial numbers if you need to order study guide(s) with or without the textbook. This course consists of a textbook and five supplemental study guides. 006034 Electric Heating Duration: 10 hours (includes 1 test) Course Prerequisite: AC Principles (Block A22) What Students Learn: The use of electricity in an ever increasing number of applications has become an accepted pattern over the years. The microwave and range were originally regarded as luxury items. Today, however, they're viewed by many as necessities, along with dozens of other electric devices, ranging from computers to hair dryers. The acceptance of these devices as necessary for our convenience and comfort has paralleled the rise in our standard of living. Therefore, it's not surprising that electric heating has also been accepted in our homes, schools, offices, and industrial plants. Students will be able to: Identify the way and the how of the electric-heating market - its growth and present trends. Compare heating sources and list some of the benefits of electric heating. Define the basic terms used in electric heating. Describe the basics of heat loss and how insulation, ventilation, and other controls affect heat loss calculations. Understand how heating requirements for buildings are estimated using the degree day method of calculation. Identify and compare the major selections of heating equipment. Discuss the relationship of heat, current, resistance, and voltage. Describe the main types of electric thermal storage systems available, including the advantages of each. Identify and describe the various heating controls available. Compare and select electric heating systems for residential applications. Choose the proper heating system for a particular type of building. Discuss the various methods for recovering lighting energy for space heating. Determine which of the electric systems studied apply to industrial buildings. Special Note: This updated course replaces, Electric Heating, course 4310, and Electric Space Heating, course 4312. ___________________________________________ 006035 Controls for Air Conditioning Duration: 10 hours (includes 1 test) What Students Learn: Fundamentals of Control Systems; Plants, Distribution Systems and Units; Control of Temperature, Humidity, Pressure, Ventilation, and Air Cleaning; Pneumatic, Electric, and Electronic Control Systems; Planning the Control System; Miscellaneous Installations. Special Note: This updated course replaces, Controls for Air Conditioning, course 6636. ___________________________________________ 2945 Duct and Piping Design for Air Conditioning Duration: 10 hours (includes 1 test) Course Prerequisite: Formulas (186012) What Students Learn: Ducts for Indirect Air Conditioning Systems; Procedure in Duct Design; Methods of Duct Design and Construction; Design of Piping for Air Conditioning. ___________________________________________ 4500B Servicing Gas Appliances Duration: 10 hours (includes 1 test) What Students Learn: Types of Gas-Fired Central Heating Systems; Requirements for Efficient Heating; Heating Unit Controls and Their Adjustment; Methods of Flue Gas Analysis; Service Check List for Various Heating Units; Inspection of Gas-Fired Heating Units; Principles of Gas-Fired Air Conditioning Units; Classification of Systems; Cooling and Heating Cycles of Vacuum- Type Absorption Units; Control Systems and Their Adjustment; Service Checklist for Various Cooling Units; Tables for Operational Service Work. /0fmpC H m r 4 9 a f & ) ^ c  ? D r w  = B m r AFlq&εhGfhjC5>*CJaJhGfhCJaJhGfhjCCJaJhjC5>*CJaJhjC5OJQJ\^JhjCh6CJ]aJG/0fm T ~ E r 6 o  h X $(gdjC" `h X $(dx&d 1$P gdjC$ (1$^`(gdjC $XX1$a$gdjCo  P K { %Oz Z<y h X $(gdjC&FINZ+0hmDIsx-2di>}).ot %Y^hGfhjC5>*CJaJhGfhxoCJaJhGfhCJaJhGfhjCCJaJhGfhyCJaJJ)U<s K:1h h X $(gdjC*/fk 8>bgry  JKPyzTUijƾƾƾƾhjCh5h5CJaJhpC5CJaJh5CJaJhjC5CJaJh5hjC5CJaJhCJaJhjCCJaJhMhjCCJaJhGfhjC5>*CJaJhGfhCJaJhGfhjCCJaJhGfhCJaJ/8tHqryZUijklnop LgdjCgdjC h X $(gdjCjl|}VX" "T"V"""$$$$$$&&&&"'#'W)X)))))/+0+h+j+++'/(/f/h///1111 2 2q3r3333344445566'7)7U7V7888899==C=hjCmHnHujhjCUhjC h v^hjCXpqrs/EDQs $ 1$gdjC $ 1$gdjC  1$gdjC1$gdjC1$gdjC LgdjC%_E|  !M!!!"""":####  1$gdjC1$gdjC1$gdjC$ (1$^`(gdjC#$:$$$%%P%}%%%&&&$'-'9'c''W((((Q))  1$gdjC1$gdjC1$gdjC$ (1$^`(gdjC)))B*v***&++++++--s...../!/ $ 1$gdjC $ 1$gdjC1$gdjC$ (1$^`(gdjC  1$gdjC1$gdjC!//// 000Z11 22)2H2222+3k333334k445$ (1$^`(gdjC  1$gdjC1$gdjC1$gdjC575C5556y66W7i7u777 8`888919<9X9n9 $ 1$gdjCgdjC1$gdjC$ (1$^`(gdjC  1$gdjC1$gdjCn9n;~;;; <G<\<<<<<s====>@@,$$$ d$d&d1$NP]^a$gdjC1$gdjC1$gdjC $ 1$gdjC  1$gdjC $ 1$gdjCC=E=q=r==e@nDoDDDDDEYHFKGKqKsKKKKMPP*Q,QXQYQQSWWXX/X0X^XZ]]^^0^1^W^`6c7cickccccg\j]jjjkknnoohoiorrrrss&x'x_xaxxx\^&hjC56CJOJQJ\]^JaJhjChjCmHnHujhjCUS@@e@@EAAA#BgBBBKCCDD DhDDDE  1$gdjC1$gdjC1$gdjC$ (1$^`(gdjC,$$$ d$d&d1$NP]^a$gdjCE E3FHHHYHHH,IeIII"JJJJJ@KKK1$gdjC1$gdjC$ (1$^`(gdjC,$$$ d$d&d1$NP]^a$gdjCKKKtMuMMMN3NXNNNOhOOO*P+P4PP$ (1$^`(gdjC,$$$ d$d&d1$NP]^a$gdjC  1$gdjCPZQQQQ`SaSlSS TAT}TTU\UUUCVnVV$ (1$^`(gdjC,$$$ d$d&d1$NP]^a$gdjC  1$gdjC1$gdjC1$gdjCVVVW1XRX^XfXgZhZsZZZ>[[[\_\\],$$$ d$d&d1$NP]^a$gdjC  1$gdjC1$gdjC1$gdjC$ (1$^`(gdjC]]%]]2^K^W^_^````1asaaaTbbbb,$$$ d$d&d1$NP]^a$gdjC  1$gdjC1$gdjC1$gdjC$ (1$^`(gdjCb0cccccefffgTgghhh8iiii,$$$ d$d&d1$NP]^a$gdjC  1$gdjC1$gdjC1$gdjC$ (1$^`(gdjCiVj k_kjkkklGll/mmGnWnnjooooo!pVpp $ 1$gdjC  1$gdjC1$gdjC1$gdjC$ (1$^`(gdjCp.qqqNrrss(sBsXszsssss3u4uvvvv $ 1$gdjC $ 1$gdjC  1$gdjC1$gdjC1$gdjC$ (1$^`(gdjCv w9w^wwww xxxxxxy8y`yvy~yzz{{ $ 1$gdjC $ 1$gdjC  1$gdjC1$gdjC1$gdjC$ (1$^`(gdjC{.|/|Q}R}]}}}}5~j~k~t~ Ȁ $ 1$gdjC  1$gdjC1$gdjC1$gdjC$ (1$^`(gdjC $ 1$gdjCȀȁӁ%Hp*+Pdž $ 1$gdjC $ 1$gdjC  1$gdjC1$gdjC1$gdjC$ (1$^`(gdjCY[ "WX56ik#%]^ܝޝ!"@B(HJy{èɩʩѩhjCCJOJQJ^JaJ hjC5CJOJQJ\^JaJ,hyhjC56CJ OJQJ\]^JaJ hjC5CJ$OJQJ\^JaJ$ hy5CJ$OJQJ\^JaJ$hyhjCmHnHujhjCUhjC45qr{Ymxʈ+3̋R $ 1$gdjC $ 1$gdjC  1$gdjC1$gdjC1$gdjC$ (1$^`(gdjCˌv eŽˎ/Ïݏ8`v~ $ 1$gdjC $ 1$gdjC  1$gdjC1$gdjC1$gdjC$ (1$^`(gdjCDEBٗ:;D_vә $ 1$gdjC  1$gdjC1$gdjC1$gdjC$ (1$^`(gdjC $ 1$gdjCә4<Ě r"{ٜڜ#EPj1$gdjC1$gdjC$ (1$^`(gdjC $ 1$gdjC  1$gdjC $ 1$gdjCŞ ՠ֠'$aߢṢ$$ (1$^`(gdjC $ 1$gdjC  1$gdjC $ 1$gdjC̥#J{Ũ 'Qɩ $ 1$gdjC $ 1$gdjC  1$gdjC1$gdjC1$gdjCɩʩѩIQĪEf $2GnȬ_ɭ 7$8$H$gdjC 2Gn(*jmtͮU\w .<>stz{ٳڳ/0oq&'Y[PQηߦߦηߦηߦߦߢhjCmHnHujhjCUhjC hjC5CJOJQJ\^JaJ,hyhjC56CJ OJQJ\]^JaJ hjC5CJ$OJQJ\^JaJ$hjCCJOJQJ^JaJ# *hDnhjCCJOJQJ^JaJ7ɭ(klmtͮ(1rүۯSTU\w gdjC 7$8$H$gdjCbFhDz.<t۳,W)$ (1$^`(gdjC  1$gdjC1$gdjC1$gdjCgdjC 7$8$H$gdjC̵B}϶ J!;g%LX}1$gdjC$ (1$^`(gdjC  1$gdjC1$gdjC#$13_`/1]^DEmoIJfg-.`b~`a "jk'(mopqNP|}hjChjCmHnHujhjCU[Qʻaq}ϼ S_r~ɾ;ο>  1$gdjC1$gdjC1$gdjC$ (1$^`(gdjC ~B)9I` $ 1$gdjC $ 1$gdjC1$gdjC$ (1$^`(gdjC  1$gdjC1$gdjC.@cy)$x"-H^1$gdjC1$gdjC $ 1$gdjC $ 1$gdjC  1$gdjC!N3>YoY $ 1$gdjC1$gdjC1$gdjC$ (1$^`(gdjC $ 1$gdjC  1$gdjC%!7B]sl8H1$gdjC1$gdjC $ 1$gdjC  1$gdjC $ 1$gdjC(Pv!FMj$ (1$^`(gdjC1$gdjC1$gdjC $ 1$gdjC  1$gdjCju.p ~-X(EQ$ (1$^`(gdjC  1$gdjC1$gdjC1$gdjC&'ABST;<tv`aUWfg89x~>?acTUJL/0H I      hhjCjhjCUhjCmHnHuX`CmyOM=5X  1$gdjC1$gdjC1$gdjC$ (1$^`(gdjCXZf!` $ 1$gdjC $ 1$gdjC  1$gdjC1$gdjC1$gdjC$ (1$^`(gdjC 0Faq:[fx)?aw1$gdjC1$gdjC $ 1$gdjC $ 1$gdjC  1$gdjCwU3x@_j!o $ 1$gdjC  1$gdjC1$gdjC1$gdjC$ (1$^`(gdjC /EfgN1K1$gdjC1$gdjC$ (1$^`(gdjC $ 1$gdjC  1$gdjCKa9W 6~- $ 1$gdjC1$gdjC1$gdjC$ (1$^`(gdjC  1$gdjC-\( + G ]     A      e   $ 1$gdjC $ 1$gdjC  1$gdjC1$gdjC1$gdjC$ (1$^`(gdjC   x     =Dnl $ 1$gdjC  1$gdjC1$gdjC1$gdjC & 0` P@1$7$8$H$gdjC $ 1$gdjC    A C v w    <=DnxgvJY 좌yfSfSfSfSf%hNhjCB*OJQJ^JaJph%hNhjCB*OJQJ^JaJph%hNhjCB*OJQJ^JaJph+hNhjC5B*OJQJ\^JaJph,hNhjC56CJ OJQJ\]^JaJ hNhjChNhjC5hqhjCCJaJhjCmHnHujhjCUhjC&hNhjC5CJ$OJQJ\^JaJ$gJVX & 0` P@1$7$8$H$gdjC " ##&$'$($/$@$J$e$z$$$/+=+++íØw`Míí=hjCB*OJQJ^JaJph%hNhjCB*OJQJ^JaJph,hNhjC56CJ OJQJ\]^JaJ &hNhjC5CJ$OJQJ\^JaJ$hjChNhjCCJ)hNhjCB*CJOJQJ^JaJph+hNhjC5B*OJQJ\^JaJph%hNhjCB*OJQJ^JaJph%hNhjCB*OJQJ^JaJph+hNhjC5B*OJQJ\^JaJphT !!" ##'$($/$@$z$$$J''-(()*$+/+=+?+ L&d P gdjC1$gdjC & 0` P@1$7$8$H$gdjC?++++++,1,4-B-------&.8.M...//0/U/j/ & 0` P@1$7$8$H$gdjC LgdjC+++,,1,4-B-C--------.&.8.M.../0/:/U/j/X1Y1տտտ~ hehjChjChjCB*OJQJ^JaJph%hehjCB*OJQJ^JaJph%hehjCB*OJQJ^JaJph+hehjC5B*OJQJ\^JaJph,hehjC56CJ OJQJ\]^JaJ &hehjC5CJ$OJQJ\^JaJ$j/Y1 LgdjC,1h/ =!"#$% "|666666666vvvvvvvvv66666>6666666666666666666666666666666666666666666666666hH666666666666666666666666666666666666666666666666666666666666666666666666662 0@P`p2( 0@P`p 0@P`p 0@P`p 0@P`p 0@P`p 0@P`p8XV~ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@ 0@_HmH nH sH tH @`@ NormalCJ_HaJmH sH tH \@\ M Heading 2x1$7$8$@&H$5CJOJQJ\^JaJDA D Default Paragraph FontRiR  Table Normal4 l4a (k (No List JOJ M Body text a 1$7$8$H$CJaJNoN MDirecti0 7$8$H$CJ_HaJmH sH tH XOX MDoc Init `1$7$8$H$CJOJQJ^JaJF/!F  v^Heading 2 Char5OJQJ\^JzO2z v^Course No. Large%d$d 1$7$8$H$N 5CJ$OJQJ\^JaJ$`OB` v^ Course Title1$7$8$H$ 56CJ OJQJ\]^JaJ hORh v^Course Duration P1$7$8$H$5CJOJQJ\^JaJ@b  v^HeaderO$$ppdx$d &d 1$7$8$H$N P ]p^pa$ 56CJ0OJQJ\]^JaJ0N/qN  v^ Header Char 56CJ0OJQJ\]^JaJ0PK!pO[Content_Types].xmlj0Eжr(΢]yl#!MB;.n̨̽\A1&ҫ QWKvUbOX#&1`RT9<l#$>r `С-;c=1g?}~O:~kҏM݄׷ )I0wK)K`qfݢFHb?G+D7HȌ x|iRLJqbOYPΥyL#R=E6wR#ϣ\16h>(()1!F\OI1yA"֐LəQMc@^V6o#6ϝU񅉄Q )FRrFrB72aʜ snyz? rnyӑCv(Yذ: ~%'L̼C9c_lj5xS,<̨ɊVRohzB+~KOOI̲uk##7~FmKw{ 7n_n?/绗Bx˭kYW[d}N('\m9zj"Cy'.ʐq2&""h;+Dpqg8lհշerfk.NsHlk~9"Gڛҽb5i{d&D{=(!hjew¢kaёשaʬɁV=0#xBdTyL`MvL$r3IȨc4Euиid(|PZX6` 4Օem5}(-z0Y@pE4g6ʲȸ"WABJ+_JCz%YA$BO6"#Zaol ijK.Joegzmo1QT5#QQt1JK:ꬌvVhglzPnZvޮ{&iv3fXXޮk!M;|.ے]k>2~{QLfPweXjv1jv&~kv+neN`]04_+U՗;{ 1K*J%|zl&jO"DqkH}]^J*^ӫU:~Y~>uË(*/]۽%UTq! :[q*f\Na+hto\B~3ZNUתIn5}b+壈W:PK! ѐ'theme/theme/_rels/themeManager.xml.relsM 0wooӺ&݈Э5 6?$Q ,.aic21h:qm@RN;d`o7gK(M&$R(.1r'JЊT8V"AȻHu}|$b{P8g/]QAsم(#L[PK-!pO[Content_Types].xmlPK-!֧6 -_rels/.relsPK-!kytheme/theme/themeManager.xmlPK-!o(ʾtheme/theme/theme1.xmlPK-! ѐ' theme/theme/_rels/themeManager.xml.relsPK] Y)&jC= +Y1o p#)!/5n9@EKPV]bipv{ȀәɩɭjX wK- ?+j/Y18@0( AlB@DA B S  ?k)r)e6k6??D!Dm\w\x\~\\\$]/]%a+allllpp]c8C$-;B$  ! [)b]k]kl"/ ') ! [)33333333 <  GfxojCypCq_#Y)[)@mm,mmY)@Unknown G*Ax Times New Roman5Symbol3 *Cx ArialA*Cx Arial-BoldMTM CxArial-BoldItalicMT[AGaramond-RegularCambria3Times7CourierA$BCambria Math"qhNZ.[Qg /a, a, !24((3qH)?M2 i ,.Penn Foster - Iowa HVAC Apprenticeship programrbrunoMicrosoft Office User Oh+'0 8D h t '0Penn Foster - Iowa HVAC Apprenticeship programrbruno Normal.dotmMicrosoft Office User9Microsoft Macintosh Word@ِ@@2l a, ՜.+,00 hp  'Thomson Education Direct( /Penn Foster - Iowa HVAC Apprenticeship program Title  !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~Root Entry FΉ2l1Table#WordDocument.SummaryInformation(DocumentSummaryInformation8CompObjr  F Microsoft Word 97-2004 Document MSWordDocWord.Document.89q