• Author / Uploaded
• Brayan Benavides

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Question 1 – Drawing Views -Which tool is used to produce the view of part A shown in B?

a. Aligned Section View b. Detailed View c. Broken-Out Section View d. Auxiliary View

Question 2 – Drawing Scale -To change the scale of the drawing and have the sheet format update:

a. Select the view then set the scale on the property manager b. Open the Sheet Properties c. Right click the view and select “change master scale” d. Open the Drawing Options

Question 3 – Drafting Standards -To change the Drafting Standard of a drawing: Hint: Drafting standard refers to annotation placement, arrowhead and line sizes, etc.

a. Go to options and Document Properties b. Open the Sheet Properties and change standard sheet format c. Right click sheet and select edit Sheet Format in property manager d. Right click drawing view and select properties

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Question 4 – Solid model 1 Unit system: MMGS (millimeter, gram, second) Decimal places: 2 Part origin: Arbitrary Material: 1060 Alloy Density = 2700 kg/m^3 All holes through all unless shown otherwise -Use the following parameters and equations which correspond to the dimensions labeled in the images: A = 50 mm B = 10 mm C = B + 20 (To save the most time, make use of linked dimensional values and equations.) (Save each part after every question in a different file, so you can review your work) -Measure the mass of the part. What is the mass of the part (grams)? a. 364.44 b. 345.94 c. 323.56 d. 355.22

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Question 5 – Solid model 1: Update parameters Unit system: MMGS (millimeter, gram, second) Decimal places: 2 Part origin: Arbitrary Material: 1060 Alloy Density = 2700 kg/m^3 All holes through all unless shown otherwise -Use the following parameters and equations which correspond to the dimensions labeled in the images: A = 50 mm B = 15 mm C = B + 20 (To save the most time, make use of linked dimensional values and equations.) (Save each part after every question in a different file, so you can review your work) -Measure the mass of the part. What is the mass of the part (grams)? _____

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Question 6 – Solid model 2 Unit system: MMGS (millimeter, gram, second) Decimal places: 2 Part origin: Arbitrary Material: Brass Density = 8500 kg/m^3 All holes through all unless shown otherwise -Use the following parameters and equations which correspond to the dimensions labeled in the images: A = 50 mm B = 30 mm C = 35 mm D=A*4 (To save the most time, make use of linked dimensional values and equations.) (Save each part after every question in a different file, so you can review your work) -Measure the mass of the part. What is the mass of the part (grams)? a. 5010.96 b. 5112.66 c. 4996.35 d. 5180.55

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Question 7 – Solid model 2: Update parameters Unit system: MMGS (millimeter, gram, second) Decimal places: 2 Part origin: Arbitrary Material: Brass Density = 8500 kg/m^3 All holes through all unless shown otherwise -Use the following parameters and equations which correspond to the dimensions labeled in the images: A = 45 mm B = 20 mm C = 30 mm D=A*4 E = C - 10 (To save the most time, make use of linked dimensional values and equations.) (Save each part after every question in a different file, so you can review your work) -Measure the mass of the part. What is the mass of the part (grams)? _____

Question 8 – Assembly Model 1 Unit system: MMGS (millimeter, gram, second) Decimal places: 2 Part origin: Arbitrary

-Create new assembly with the following parts: Base.sldprt Crankshaft.sldprt PistonRod.sldprt PistonHead.sldprt -Create the appropriate mates as shown. - Mate the front planes of PistonHead.sldprt coincident to the front plane of base.sldprt -Create the coordinate system as shown in the picture.

-Create the angle mate as shown in the following picture.

What is the center of mass of the assembly with respect to the new coordinate system? a. X= -22.55, Y= 120.12, Z= 155.34 b. X= -25.85, Y= 113.54, Z= 173.53 c. X= 22.55, Y= -120.12, Z= 155.34 d. X= -30.53, Y= 102.11, Z= 166.38

Question 9 – Assembly Model 1: Update mates Unit system: MMGS (millimeter, gram, second) Decimal places: 2 Part origin: Arbitrary

-Change the angle mate as shown in the following picture.

What is the center of mass of the assembly with respect to the new coordinate system? X = _____ Y = _____ Z = _____

Question 10 – Assembly Model 2 Unit system: MMGS (millimeter, gram, second) Decimal places: 2 Part origin: Arbitrary

-Create new assembly with the following parts: Mount.sldprt Cylinder.sldprt Piston.sldprt A-Arm.sldprt -Create the appropriate mates as shown.

-Create the following mates: A = 20 mm

What is the value of the length X between the bottom edge of the A-Arm and the bottom face of the mount (mm)? a. 48.36 b. 55.22 c. 41.35 d. 56.35

Question 11 – Assembly Model 2: Update mates Unit system: MMGS (millimeter, gram, second) Decimal places: 2 Part origin: Arbitrary

-Change the distance mate ‘A’ to the following value: A = 5 mm What is the value of the length X between the bottom edge of the A-Arm and the bottom face of the mount (mm)? _____

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Question 12 – Solid model 3 Unit system: MMGS (millimeter, gram, second) Decimal places: 2 Part origin: Arbitrary Material: Cast Alloy Steel Density = 7300 kg/m^3 All holes through all unless shown otherwise -Use the following parameters and equations which correspond to the dimensions labeled in the images: A = 40 mm B = 120 mm C = 20 mm D = B/4 E = C/2 (To save the most time, make use of linked dimensional values and equations.) (Save each part after every question in a different file, so you can review your work) -Measure the mass of the part. What is the mass of the part (grams)? a. 923.18 b. 904.86 c. 955.12 d. 897.21

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Question 13 – Solid model 3: Update Parameters Unit system: MMGS (millimeter, gram, second) Decimal places: 2 Part origin: Arbitrary Material: Cast Alloy Steel Density = 7300 kg/m^3 All holes through all unless shown otherwise -Use the following parameters and equations which correspond to the dimensions labeled in the images: A = 30 mm B = 150 mm C = 15 mm D = B/4 E = C/2 (To save the most time, make use of linked dimensional values and equations.) (Save each part after every question in a different file, so you can review your work) -Measure the mass of the part. What is the mass of the part (grams)? _____

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Question 14 – Solid model 3: Update Parameters again. Unit system: MMGS (millimeter, gram, second) Decimal places: 2 Part origin: Arbitrary Material: Cast Alloy Steel Density = 7300 kg/m^3 All holes through all unless shown otherwise -Use the following parameters and equations which correspond to the dimensions labeled in the images: A = 30 mm B = 150 mm C = 15 mm D = B/4 E = C/2 (To save the most time, make use of linked dimensional values and equations.) (Save each part after every question in a different file, so you can review your work) -Measure the mass of the part. What is the mass of the part (grams)? _____