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TASK TITLE: Blue Print Reading
POS #: 500
TASK: Draw and Estimate a Residential Blueprint
PURPOSE: To Draw and Estimate a Residential Blueprint According to the National Electric Code.
TASKS:
|500 |Blueprint Reading |
|501 |Identify types of blueprint plans. |
|502 |Identify blueprint symbols. |
|503 |Interpret blueprint plans. |
|504 |Plan branch circuits for blueprint development. |
|505 |Incorporate electrical details to residential blueprint. |
REVISION: 2019
|ENGLISH LANGUAGE ARTS |
|CC.1.2.11-12.J Acquire and use accurately general academic and domain-specific words and phrases, sufficient for reading, writing, speaking, and |
|listening at the college and career readiness level; demonstrate independence in gathering vocabulary knowledge when considering a word or phrase |
|important to comprehension or expression |
|CC.1.3.11-12.I Determine or clarify the meaning of unknown and multiple-meaning words and phrases based on grade level reading and content, |
|choosing flexibly from a range of strategies and tools. |
|MATH |
|CC.2.1.HS.F.4 Use units as a way to understand problems and to guide the solution of multi-step problems. |
|READING IN SCIENCE & TECHNOLOGY |
|CC.3.5.11-12.B. Determine the central ideas or conclusions of a text; summarize complex concepts, processes, or information presented in a text by |
|paraphrasing them in simpler but still accurate terms. |
|CC.3.5.11-12.C. Follow precisely a complex multistep procedure when carrying out experiments, taking measurements, or performing technical tasks; |
|analyze the specific results based on explanations in the text. |
|WRITING IN SCIENCE & TECHNOLOGY |
|CC.3.6.11-12.E. Use technology, including the Internet, to produce, publish, and update individual or shared writing products in response to |
|ongoing feedback, including new arguments or information. |
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*ACADEMIC STANDARDS *
|READING, WRITING, SPEAKING & LISTENING |
|1.1.11.A Locate various texts, assigned for independent projects before reading. |
|1.1.11.D Identify strategies that were most effective in learning |
|1.1.11.E Establish a reading vocabulary by using new words |
|1.1.11.F Understanding the meaning of, and apply key vocabulary across the various subject areas |
|1.4.11.D Maintain a written record of activities |
|1.6.11.A Listen to others, ask questions, and take notes |
|MATH |
|2.2.11.A Develop and use computation concepts |
|2.2.11.B Use estimation for problems that don’t need exact answers |
|2.2.11.C Constructing and applying mathematical models |
|2.2.11.D Describe and explain errors that may occur in estimates |
|2.2.11.E Recognize that the degree of precision need in calculating |
|2.3.11.A Selecting and using the right units and tools to measure precise measurements |
|2.5.11.A Using appropriate mathematical concepts for multi-step problems |
|2.5.11.B Use symbols, terminology, mathematical rules, Etc. |
|2.5.11.C Presenting mathematical procedures and results |
|SCIENCE |
|3.1.12.A Apply concepts of systems, subsystems feedback and control to solve complex technological problems |
|3.1.12.B Apply concepts of models as a method predict and understand science and technology |
|3.1.12.C Assess and apply patterns in science and technology |
|3.1.12D Analyze scale as a way of relating concepts and ideas to one another by some measure |
|3.1.12.E Evaluate change in nature, physical systems and man made systems |
|3.2.12.A Evaluate the nature of scientific and technological knowledge |
|3.2.12.B Evaluate experimental information for appropriateness |
|3.2.12.C Apply elements of scientific inquiry to solve multi – step problems |
|3.2.12.D Analyze the technological design process to solve problems |
|3.4.12.A Apply concepts about the structure and properties of matter |
|3.4.12.B Apply energy sources and conversions and their relationship to heat and temperature |
|3.4.12.C Apply the principles of motion and force |
|3.8.12.A Synthesize the interactions and constraints of science |
|3.8.12.B Use of ingenuity and technological resources to solve specific societal needs and improve the quality of life |
|3.8.12.C Evaluate the consequences and impacts of scientific and technological solutions |
|ECOLOGY STANDARDS |
|4.2.10.A Explain that renewable and non renewable resources supply energy and material. |
|4.2.10.B Evaluate factors affecting availability of natural resources. |
|4.2.10.C Analyze the use of renewable and non renewable resources. |
|4.2.12.B Analyze factors affecting the availability of renewable and non renewable resources. |
|4.3.10.A Describe environmental health issues. |
|4.3.10.B Explain how multiple variables determine the effects of pollution on environmental health, natural processes and human practices. |
|4.3.12.C Analyze the need for a healthy environment. |
|4.8.12.A Explain how technology has influenced the sustainability of natural resources over time. |
|CAREER & EDUCATION |
|13.1.11.A Relate careers to individual interest, abilities, and aptitudes |
|13.2.11.E Demonstrate in the career acquisition process the essential knowledge needed |
|13.3.11.A Evaluate personal attitudes that support career advancement |
|ASSESSMENT ANCHORS |
|M11.A.3.1.1 Simplify expressions using the order of operations |
|M11.A.2.1.3 Use proportional relationships in problem solving settings |
|M11.A.1.2 Apply any number theory concepts to show relationships between real numbers in problem solving |
STUDENT
The student will be able to draw and estimate an entire residential blueprint to 100% accuracy and according to the National Electric Code.
TERMINAL PERFORMANCE OBJECTIVE
Given a blueprint and all the required materials and resources, the student will draw a residential blueprint, to 100% accuracy and according to the National Electric Code. The student will also make a detailed material and price list to 100% accuracy and according to the National Electric Code.
SAFETY
• Always wear safety glasses while working in the shop.
• Keep the work benches clean and free of debris.
RELATED INFORMATION
1. Attend lecture by instructor.
2. Obtain handout.
3. Obtain blueprint.
4. Electrical symbol handout.
5. The National Electric Code book.
6. Review chapter in textbook.
7. Complete blueprint according to the National Electric Code.
8. Complete a detailed material list with prices for all materials used.
(This can be written or typed.)
7. Mark prices up to show a profit. (The percentage is up to the student.)
8. Complete all questions in this packet.
9. Review and Discuss MAVCC “Personal Protective Equipment” Video
10. Complete K-W-L Literacy Assignment by Picking an Article From the
“Electrical Contractor” Magazine Located in the Theory Room. You can pick any article you feel is important to the electrical trade.
EQUIPMENT & SUPPLIES
1. Handout
2. National Electric Code book
3. #2 pencil
4. Blueprint
5. Templates to draw symbols
6. Electrical symbol handout
7. Clean work area
8. Calculator
9. Wiring rubric
CC.1.2.11-12.J Acquire and use accurately general academic and domain-specific words and phrases, sufficient for reading, writing, speaking, and listening at the college and career readiness level; demonstrate independence in gathering vocabulary knowledge when considering a word or phrase important to comprehension or expression
Introduction
Every residential electrician must be familiar with residential building plans. Most new construction and remodel electrical wiring jobs require an electrician to follow a building plan when installing the electrical system. This chapter introduces you to residential building plans and the common architectural symbols found on them.
Building plan specifications and basic residential framing are also covered.
After completing this chapter, the student should be able to:
• Demonstrate an understanding of residential building plans.
• Identify common architectural symbols found on residential building plans.
• Demonstrate an understanding of residential building plan specifications.
• Demonstrate an understanding of basic residential framing methods and components.
A. Overview of Residential Building Plans
1. Prepared by an architect
a. Set of drawings used as a guide to build the house
b. Drawn by a draftsman or a CAD operator
c. Called blueprints, drawings, construction drawings, or working drawings
2. Residential electrician should be familiar with main parts
a. Floor plan
b. Elevation drawings
c. Sectional drawings
d. Detail drawings
e. Electrical drawings
f. Schedules
g. Specifications
B. Floor Plans
1. Show building details from a view directly above the house (sometimes called “bird’s-eye” view
2. Show house as if a horizontal cut was made through the building at window height and the top taken off
a. First-floor plan
b. Second-floor plan
c. Basement plan
3. Show the length and the width of the floor
4. Used by electricians to determine the exact size and location of doors, windows, and wall
C. Elevation Drawings
1. Show the side of the house facing a certain direction
2. May show height, length, and width of the house
3. Used by electricians to determine the heights of windows, doors, porches, and other parts of the structure
a. This information not available on floor plans
b. Needed when installing outside lighting fixtures and outside receptacles
D. Sectional Drawings
1. Show the inside of a building
2. Side of house removed to reveal “cutaway” view
3. Depict points on floor plan or elevation drawing
a. Shown with a section line (dashed line with arrows on the ends
b. Section lines distinguished with letters or numbers located at the end of the arrows on the section lines
c. May be labeled Section A-A or Section B-B
4. Contain information important to an electrician
a. Enables electrician to determine how to run cable
b. Shows how thick wood floor will be
E. Detail Drawings
1. Show specific details of a particular part of the building structure
2. An enlarged view makes details much easier to see
a. Usually located on the same plan sheet where the building feature appears
b. If shown on a separate sheet, they are numbered to refer back to a particular location on the building plan
3. Used by electricians to determine exact locations for placement of electrical
equipment
F. Electrical Drawings
1. Most important part of the building plan for electricians
2. Show exactly what is required of the electrician for the complete installation of the electrical system
a. Electrical symbols used to depict electrical equipment and devices
• Makes plan less cluttered, easier to read
• A type of shorthand to show electrician which electrical items are required and where they are located
3. Used by electrical contractors to estimate the amount of material and labor needed to install the electrical system
4. Provide good map of electrical system; can be consulted in future if and when problems arise
G. Schedules
1. List and describe various items used in the construction of the building
2. Usually set up in table form
3. Provide specific information about electrical equipment that needs to be installed in the building
4. Tell the electrician what type and how many lamps are used with each lighting fixture
H. Specifications
1. Provide clarity to the building plans
a. Provide extra details about equipment and construction methods not in the regular building plans
b. Provide detailed information to all of the construction trades involved with the building
2. Electrical specifications often include the specific manufacturer’s catalog numbers and other information
a. Items will be the right size and type
b. Items will have the proper electrical rating
3. Help electrical contractor with the estimate of what it will cost to install the proposed electrical system
a. Read specifications through from beginning to end
I. Types of Drawing Lines
1. Object line—solid dark line used to show the main outline of building; includes exterior walls, interior partitions, porches, patios, interior walls
2. Dimension lines—thin unbroken lines indicate length or width of an object; arrows usually placed at each end of line and the dimension value is placed in a break of the line or just close to the line
3. Extension lines—extend but not actually touch object lines; have dimension lines drawn between them
4. Hidden lines—straight dashed lines show lines of an object not visible from view shown in plan
5. Centerline—series of short and long dashes to designate center of items such as windows and doors; sometimes will see dashed line going through the letter “C” to specify the center of object
6. Break lines—show that part of actual object is longer than what drawing is depicting; full length of object may not be able to be drawn in some building plans
7. Leader—solid line that is usually drawn at angle and has arrow on end of it; connects note or dimension to a part of building shown in drawing
J. Scale
1. Used to fit drawings on paper
2. Must be proportional to actual object
3. Most residential plans drawn to scale of 1/4 inch = 1 foot- 0 inch.
a. Each one-fourth inch on drawing equals 1 foot on actual building
b. If a part of the building plan used a one-eighth inch = 1 foot-0 inch scale, one-eighth inch on the drawing would equal 1 foot of the actual building
4. Scale usually found in title block
a. Title block usually located in lower right-hand corner
b. Title block contains other information
• Name of building project
• Address of project
• Name of architectural firm
• Date of completion
• Drawing sheet number
• General description of drawing
K. Common Architectural Symbols
1. Used on building plans to depict everything from kitchen sink to a window
2. Notes provide additional information about a particular symbol
3. Recognize common symbols used by other trades to ensure these items do not interfere with installation of the electrical system
L. Electrical Symbols
1. Show the location and type of electrical equipment required to be installed as part of the electrical system
2. American National Standards Institute (ANSI) has published a standard titled Symbols for Electrical Construction Drawings
M. Residential Framing Basics
1. Two construction framing methods
a. Platform frame, sometimes called the western frame
• Floor built first, walls erected on top of it
• Second floor placed on top of completed first floor
b. Balloon frame
• Wall studs and first-floor joists rest on sill
• Second-floor joists rest on a 1-inch x 4-inch ribbon cut flush with inside edges of the studs
2. Major structural parts used in houses
a. Rafters—form roof structure of building; supported by top plate.
b. Ceiling joists—form structural framework for ceiling
c. Draft-stops (commonly called fire-stops)—curtail spread of fire in a house
d. Top plate—located at top of wall framework
e. Wall studs—form vertical section of wall framework
f. Bottom plate—bottom of wall framework; rests on top of subfloor
g. Subfloor—first layer of flooring that covers floor joists
h. Floor joists—horizontal framing members that attach to sill and form structural support for floor and walls
i. Girders—heavy beams that support inner ends of floor joists
j. Sill—a piece of wood that lies on the top of the foundation and provides
a place to attach the floor joists
k. Sheathing—boards or sheet material (like plywood) that are attached to outside of studs or rafters and add rigidity to framed structure
l.
Foundation—usually made of poured concrete or concrete block; supports framework of building.
1. Start with pre-planning the wiring of the blueprint.
2. Lightly draw the symbols on the blueprint to make sure all rooms in the home are according to the National Electric Code.
3. All parts of the wiring rubric must be followed in order to get credit for this project.
4. Draw all schematic lines NEATLY to each symbol and mark the amount of conductors for each device.
5. Be creative; think of this project as one you could potentially be doing for a customer. Add devices that would normally not be seen in a residential home.
6. Remember to ALWAYS look in the National Electric Code book to make sure all codes are covered in the blueprint.
7. When you are satisfied that all codes have been met, draw a line using a #2 pencil to each device. (NEATNESS WILL BE GRADED!!)
8. When the blueprint, material list and price list are completed, staple all pages together and turn in to the instructor.
9. This project will be part of your theory grade and your performance grade, so make sure every detail is taken into consideration.
10. Most of all have fun, you have the potential to be doing this in your own business or if you become an estimator for an electrical contractor. (Pay attention to detail, think of the instructor as your customer, make me want to pay you for your blueprint!!)
“Consistency when measuring and counting the symbols on your plans will help you reduce the time it takes to estimate a job and eliminate some errors.”
PROCEDURE
CC.2.1.HS.F.4 Use units as a way to understand problems and to guide the solution of multi-step problems.
CC.3.5.11-12.C. Follow precisely a complex multistep procedure when carrying out experiments, taking measurements, or performing technical tasks; analyze the specific results based on explanations in the text.
1.6.11A Listen to others, ask questions, and take notes
3.4.12.B Apply energy sources and conversions and their relationship to heat and temperature
Counting and measuring the symbols shown on a project's electrical plan is a critical step in the development of an accurate estimate. This task, known as a takeoff, requires you to follow an orderly, organized, methodical routine - complete with proper forms, colored pencils or pens, and a counter. It's important to understand how to incorporate these elements effectively to ensure a proper takeoff. Let's review each step of the process to help you maintain consistency in your estimating efforts.
Forms. Proper forms and work sheets save time, create consistency, and assist in the reduction of errors. The forms and work sheets also help serve as a reminder of items you may accidentally omit.
Different types of construction styles, such as residential, commercial, or industrial, lend themselves to different types of estimating forms or work sheets. For example, a work sheet used to determine the lighting requirements is different from the work sheets used to record the feeders and service equipment requirements. You can design your own work sheets or order them from reputable sources like the National Electrical Contractors Association (NECA).
Colored pencils. Use colored pencils or pens to identify each item on the plan you are counting or measuring. Once you've finished this task, your blueprints should be a color representation of the electrical work required to complete the job.
If you attempt to estimate a job without color marking the blueprints, you're more likely to make a mistake. If someone doesn't want you to mark up the blueprints, you could go to a copy center and make a copy for yourself at 100% scale. You could also place a large plastic film over the blueprints to mark on.
Counting symbols. The purpose of counting symbols is to identify the true quantity of components required for the job. When counting, you must be capable of reading and interpreting all blueprint symbols and notes. You must also understand the language on the drawings and specifications.
When you count symbols, use a handheld counter to keep track of the count. After you've counted a symbol, mark it with a colored pencil or pen to make sure to count it only once.
Measuring circuits. Prior to measuring any circuits, verify the architectural scale listed in the blueprints. Test the scale to ensure its accuracy. A blueprint is sometimes duplicated at a copy center at a reduced size, which will throw off all of your measurements.
You can find most scale dimensions in the title block of drawing; however, the scale might be different on different pages. If you're not careful, your measurement can be off by as much as 100%.
Tools used to measure circuit lengths include an architectural ruler, a scaled measuring tape, a mechanical measuring device, or an electronic measuring wheel. The architectural rule is fine for a few quick measurements. Measuring tape for 1/8-in. and 1/4-in. scale drawings is popular; however, the electronic scale wheel is the most convenient and most accurate when working with drawings that have multiple scales.
Once you have counted the fixtures, switches, and convenience receptacles, you can measure the branch circuit wiring for each of these outlets. When you measure each run, don't forget to consider the drops for the switches, receptacles, and panel.
Many estimators will place a scaled line on the blueprint to represent the distance of the drops. This way, when they come across a drop for a switch, they simply scale the distance from the pre-scaled line. Some electronic scale wheel devices permit you to press one key to add a constant distance for drops. But if your drops are of different lengths, make sure you reset the constant for each measurement.
When you measure branch circuits, be sure to take off the 2-wire circuits first, the 3-wire circuits next, and then the 4-wire circuits. After you have measured a circuit, trace the line with a colored pen or pencil. It doesn't matter what color you use, just be consistent (i.e. 2-wire - yellow; 3-wire - blue; etc.).
If the working drawings do not indicate the circuit layout or wiring configuration, you must perform this task first and then measure the circuit wiring.
Take off sequence. Although you'll find no set sequence for performing the takeoff, consistency will help you reduce the time it takes to estimate a job and help you to eliminate some errors. The following are three typical takeoff sequences.
One section/page at a time. Taking off one page of the blueprint at a time, or all of the wiring of the first floor, second floor, etc. This method is excellent if you use a computer, but impractical if you estimate manually.
Start at service and end with lighting. With this method, you start the takeoff at the utility service location. Then, you continue by taking off the feeders, branch circuits, and lighting fixtures. This method is time consuming and requires many movements between many pages of drawings.
Start with lighting and end with the service. With this method, you start the takeoff with the lighting fixtures and finish it with the service equipment. This approach generally follows this sequence:
• Count lighting fixtures and develop quantities for quotes,
• Count switches,
• Count receptacles,
• Measure branch circuit wiring,
• Count and measure individual branch circuits and home runs. Develop quantities for switchgear quotes,
• Count and measure special systems such as television, phone, Cat. 5, alarm, security sound, etc., and
• Count panels and measure feeders, service runs, service equipment. Develop quantities for switchgear quotes.
This method permits a quick overview of the job and eases you into the estimate. After taking off the homeruns and special circuits, you should have a good idea of the scope of the project. This should enable you to deal with more complex (and expensive) portions of the takeoff.
With a proper takeoff, you should have no need to refer to the plans or specifications when determining the bill-of-material for the project. Of course, it's best to develop a system that fits your personal style and needs. But whatever system you develop, be sure to use the same procedures every time you estimate a job.
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|VOCABULARY |
|CC.1.3.11-12.I Determine or clarify the meaning of unknown and multiple-meaning words and phrases based on grade level reading and content, |
|choosing flexibly from a range of strategies and tool |
|CC.3.5.11-12.D. Determine the meaning of symbols, key terms, and other domain-specific words and phrases as they are used in a specific scientific |
|or technical context relevant to grades 11–12 texts and topics. |
Architect
Balloon frame
Band joist
Blueprint
Bottom plate
Break line
Ceiling joists
Centerline
Computer-aided drafting (CAD)
Detail drawing
Dimension
Dimension line
Draft-stops
Electrical drawings
Elevation drawing
Extension lines
Floor joists
Floor plan
Footing
Foundation
Title Block
Girders
Hidden line
Leader
Legend
Object line
Platform frame
Rafters
QUESTIONS
CC.3.5.11-12.B. Determine the central ideas or conclusions of a text; summarize complex concepts, processes, or information presented in a text by paraphrasing them in simpler but still accurate terms.
CC.3.6.11-12.E. Use technology, including the Internet, to produce, publish, and update individual or shared writing products in response to ongoing feedback, including new arguments or information.
3.1.12.B Apply concepts of models as a method predict and understand science and technology
1. What is the minimum service allowed in a home?
2. Name all the places a G.F.C.I. receptacle must be installed according to the N.E.C.:
3. What color is 12/2 Romex cable?
4. What amperage are #10 wires rated for?
5. What must be on an A.F.C.I. breaker?
6. List the people you should call before performing any electrical work on a home?
7. Draw the symbol for a duplex receptacle:
8. Draw the symbol for a recessed light fixture:
9. How many circuits, minimum, do I need for the kitchen:
10. What amperage do the kitchen circuits need to be?
11. What is considered “roughing in”?
12. What are the two inspections that are needed?
13. Can you tap off a kitchen circuit for other lighting circuits?
14. Explain question #13?
REFERENCE PAGES
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COMMON BUILDING SYMBOLS
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LIGHTING SYMBOLS
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RECEPTACLE SYMBOLS
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VARIOUS SYMBOLS
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BASIC FLOOR PLAN LAYOUT
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BASIC WIRING LAYOUT WITH LEGEND
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SIMPLE TAKE-OFF SHEET
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BASIC BLUE PRINT SYMBOLS AND LEGENDS
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COMMON WIRING SCHEMATIC
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**NOTE (HESS’ CODE FOR BLUEPRINTS): ALL WIRING FOR RECEPTACLES SHOULD BE DONE IN A STRAIGHT LINE AND SQUARE TO THE WALLS. ALL WIRING FOR SWITCHES SHOULD BE IN A RADIUS TO THE DEVICE THEY ARE CONTROLLING. DO NOT FORGET CONDUCTORS, HOMERUNS AND CONTROL LINES FOR EACH WIRING SCHEMATIC.
BASIC DINING AND KITCHEN LAYOUT
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BASIC ROOM LAYOUT
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BASIC KITCHEN LAYOUT
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BASIC LAUNDRY LAYOUT
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N.E.C. REQUIREMENTS FOR RECEPTACLE PLACEMENT IN BATHROOMS
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BASIC RECEPTACLE LAYOUT FOR LAUNDRY ROOM
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NAME: LEVEL: DATE:
Rubric for Blueprints
|Task |Points Available |Points Earned |
|The student completed the symbol identification for Diagram A to 100% accuracy. |18 | |
|(-1 pt. for each incorrect answer) | | |
|The student completed the symbol identification for Diagram B to 100% accuracy. |13 | |
|(-1 pt. for each incorrect answer) | | |
|The student completed the symbol identification for Diagram C to 100% accuracy. |18 | |
|(-1 pt. for each incorrect answer) | | |
|The student completed the symbol identification for Diagram D to 100% accuracy. |30 | |
|(-1 pt. for each incorrect answer) | | |
|The student completed the symbol identification for Diagram E to 100% accuracy. |8 | |
|(-1 pt. for each incorrect answer) | | |
|The student completed the symbol identification for Diagram F to 100% accuracy. |6 | |
|(-1 pt. for each incorrect answer) | | |
|The student completed the symbol identification for Diagram G to 100% accuracy. |7 | |
|(-1 pt. for each incorrect answer) | | |
|Total Points Available/Earned |100 | |
INSTRUCTOR SIGNATURE: DATE:
NAME: LEVEL: DATE:
List the names for each electrical item shown
Diagram A
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NAME: LEVEL: DATE:
Diagram B List the names for each electrical item shown
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NAME: LEVEL: DATE:
Diagram C List the names for each electrical item shown
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NAME: LEVEL: DATE:
Diagram D List the names for each electrical item shown
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NAME: LEVEL: DATE:
Diagram E List the names for each electrical item shown
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Diagram F List the names for each electrical item shown
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NAME: LEVEL: DATE:
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NAME: DATE:
Blueprint Post - Assessment
Multiple Choice
Identify the letter of the choice that best completes the statement or answers the question.
____ 1. A __________ is the framing member used to stiffen the ends of floor joists where they rest on the sill.
|a. |bottom plate |
|b. |rafter |
|c. |band joist |
|d. |leader |
____ 2. The __________ is a table used on building plans to provide information about specific equipment or materials used in the construction of a house.
|a. |scale |
|b. |schedule |
|c. |legend |
|d. |title block |
____ 3. Which of the following are names for the building plans used by craftspeople to build houses?
|a. |Blueprints |
|b. |Construction drawings |
|c. |Working drawings |
|d. |All of the above |
____ 4. The __________ is a drawing that shows building detail from a view directly above the house.
|a. |elevation drawing |
|b. |sectional drawing |
|c. |detail drawing |
|d. |floor plan |
____ 5. A(n) __________ shows the side of the house that is facing a certain direction.
|a. |floor plan |
|b. |elevation drawing |
|c. |sectional drawing |
|d. |detail drawing |
____ 6. A(n) _________ is a cutaway view that allows you to see the inside of a building.
|a. |floor plan |
|b. |elevation drawing |
|c. |sectional drawing |
|d. |detail drawing |
____ 7. A(n) __________ is a solid dark line that is used to show the main outline of the building, including exterior walls, interior partitions, and interior walls.
|a. |object line |
|b. |dimension line |
|c. |hidden line |
|d. |centerline |
____ 8. A(n) __________ is a straight dashed line that is used to show the lines of an object that are not visible from the view shown in the plan.
|a. |object line |
|b. |dimension line |
|c. |hidden line |
|d. |centerline |
____ 9. Most residential plans are drawn on a scale of __________ = 1'.
|a. |1/8" |
|b. |1/4" |
|c. |1/2" |
|d. |1" |
____ 10. If a blueprint is drawn with a scale of 1/8" = 1', a line 2" long will equal __________ on the blueprint.
|a. |8" |
|b. |2' |
|c. |8' |
|d. |4' |
____ 11. The common symbols used on blueprints are determined by the __________.
|a. |National Fire Protection Association |
|b. |National Electrical Code |
|c. |National Association of Electrical Manufacturers |
|d. |American National Standards Institute |
| | |
____ 12. The __________ is the bottom of the wall framework and rests on the top of the subfloor.
|a. |bottom plate |
|b. |floor joist |
|c. |sill |
|d. |band joist |
____ 13. If a set of blueprints has a scale of 1/8" = 1', a wall that is actually 17' long will be __________ long on the blueprint.
|a. |1-7/8" |
|b. |2-1/8" |
|c. |2-1/4" |
|d. |4-1/4" |
Completion
Complete each sentence or statement.
14. The ratio of the size of a drawn object and the object's actual size is the _______________.
15. A(n) _______________ is a standardized drawing on the building plan that shows the location and type of a particular material or component.
16. A(n) _______________ is a series of short and long dashes used to designate the center of items such as windows and doors. They provide a reference point for dimensioning.
17. The scale to which a drawing has been done is usually found in the _______________.
18. Because many plans may use symbols that are not standard, a(n) _______________ is usually included in the plans to show the symbols used on the building plans and what they mean.
19. _______________ are used to form the roof structure of the building and are supported by the top plate.
20. The scale on a building plan is 1/4" = 1'. If a wall on the blueprint measures 3-1/2", the actual length of the wall is _______________.
21. Draw the symbol for a duplex receptacle. _______________
22. Draw the symbol for a three-way switch. _______________
23. Draw the symbol for a floor receptacle. _______________
24. Draw the symbol for a single receptacle. _______________
25. Draw the symbol for a special purpose outlet (dishwasher). _______________
26. The symbol for a recessed incandescent light fixture is ______________.
27. On residential blueprints, _______________ are used to provide the sizes and other pertinent information about the various doors and windows used in the building.
28. In a set of blueprints, the drawing scale, name of the building project, the name of the architectural firm, and the date of completion are found in the _______________.
Residential & Industrial Electricity
K-W-L WORKSHEET
NAME: LEVEL: DATE:
ARTICLE TITLE:
TIME START: TIME FINISH:
| | |
|K What do I already KNOW | |
|about this topic? | |
| | |
|W What do I WANT to know | |
|about this topic? | |
| | |
|L What did I LEARN after | |
|reading ABOUT this | |
|topic? | |
I checked the following before reading:
➢ Headlines and Subheadings
➢ Italic, Bold, and Underlined words
➢ Pictures, Tables, and Graphs
➢ Questions or other key information
I made predictions AFTER previewing the article.
Comments:
• Instructor Signature:
NAME: DATE:
Blueprint Pre- Assessment
Multiple Choice
Identify the letter of the choice that best completes the statement or answers the question.
____ 1. A __________ is the framing member used to stiffen the ends of floor joists where they rest on the sill.
|a. |bottom plate |
|b. |rafter |
|c. |band joist |
|d. |leader |
____ 2. The __________ is a table used on building plans to provide information about specific equipment or materials used in the construction of a house.
|a. |scale |
|b. |schedule |
|c. |legend |
|d. |title block |
____ 3. Which of the following are names for the building plans used by craftspeople to build houses?
|a. |Blueprints |
|b. |Construction drawings |
|c. |Working drawings |
|d. |All of the above |
____ 4. The __________ is a drawing that shows building detail from a view directly above the house.
|a. |elevation drawing |
|b. |sectional drawing |
|c. |detail drawing |
|d. |floor plan |
____ 5. A(n) __________ shows the side of the house that is facing a certain direction.
|a. |floor plan |
|b. |elevation drawing |
|c. |sectional drawing |
|d. |detail drawing |
____ 6. A(n) _________ is a cutaway view that allows you to see the inside of a building.
|a. |floor plan |
|b. |elevation drawing |
|c. |sectional drawing |
|d. |detail drawing |
____ 7. A(n) __________ is a solid dark line that is used to show the main outline of the building, including exterior walls, interior partitions, and interior walls.
|a. |object line |
|b. |dimension line |
|c. |hidden line |
|d. |centerline |
____ 8. A(n) __________ is a straight dashed line that is used to show the lines of an object that are not visible from the view shown in the plan.
|a. |object line |
|b. |dimension line |
|c. |hidden line |
|d. |centerline |
____ 9. Most residential plans are drawn on a scale of __________ = 1'.
|a. |1/8" |
|b. |1/4" |
|c. |1/2" |
|d. |1" |
____ 10. If a blueprint is drawn with a scale of 1/8" = 1', a line 2" long will equal __________ on the blueprint.
|a. |8" |
|b. |2' |
|c. |8' |
|d. |4' |
____ 11. The common symbols used on blueprints are determined by the __________.
|a. |National Fire Protection Association |
|b. |National Electrical Code |
|c. |National Association of Electrical Manufacturers |
|d. |American National Standards Institute |
| | |
____ 12. The __________ is the bottom of the wall framework and rests on the top of the subfloor.
|a. |bottom plate |
|b. |floor joist |
|c. |sill |
|d. |band joist |
____ 13. If a set of blueprints has a scale of 1/8" = 1', a wall that is actually 17' long will be __________ long on the blueprint.
|a. |1-7/8" |
|b. |2-1/8" |
|c. |2-1/4" |
|d. |4-1/4" |
Completion
Complete each sentence or statement.
14. The ratio of the size of a drawn object and the object's actual size is the _______________.
15. A(n) _______________ is a standardized drawing on the building plan that shows the location and type of a particular material or component.
16. A(n) _______________ is a series of short and long dashes used to designate the center of items such as windows and doors. They provide a reference point for dimensioning.
17. The scale to which a drawing has been done is usually found in the _______________.
18. Because many plans may use symbols that are not standard, a(n) _______________ is usually included in the plans to show the symbols used on the building plans and what they mean.
19. _______________ are used to form the roof structure of the building and are supported by the top plate.
20. The scale on a building plan is 1/4" = 1'. If a wall on the blueprint measures 3-1/2", the actual length of the wall is _______________.
21. Draw the symbol for a duplex receptacle. _______________
22. Draw the symbol for a three-way switch. _______________
23. Draw the symbol for a floor receptacle. _______________
24. Draw the symbol for a single receptacle. _______________
25. Draw the symbol for a special purpose outlet (dishwasher). _______________
26. The symbol for a recessed incandescent light fixture is ______________.
27. On residential blueprints, _______________ are used to provide the sizes and other pertinent information about the various doors and windows used in the building.
28. In a set of blueprints, the drawing scale, name of the building project, the name of the architectural firm, and the date of completion are found in the _______________.
-----------------------
[pic]
Electrical & Power Transmission Installers
CIP 46.0399
Name:
Date:
Learning Guide Due Date:
Pre Test Due Date:
Post Test Due Date:
Schuylkill Technology Center-
South Campus
15 Maple Avenue
Marlin, Pennsylvania 17951
(570) 544-4748
Total Hours: 21 (x3)
Level(s): 1
Total Hours-50
Level(s)-1
Total Hours: 21 (x3)
Level(s): 1
Project(s) are ADDITIONAL to this learning guide.
*CORE CURRICULUM STANDARDS*
Total Hours: 21 (x3)
Level(s): 1
*ACADEMIC STANDARDS*
Correct/Out of 100
Grade Percentage
Check One Percentage Task Grade
← Below Basic 0%-69% 0-6
← Basic 70%-85% 7
← Competent 86%-92% 8-9
← Advanced 93%-100% 10
Diagram G
Using the colors listed; please highlight the electrical items listed below:
*Highlight the receptacle(s) in BLUE
*Highlight the light fixture(s) in YELLOW
*Highlight the switch(s) in PINK
*Highlight the homerun in GREEN
................
................
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