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| 1 | |
Define oblique projection.
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| 2 | |
List and describe the differences between the three different types of oblique drawing.
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| 3 | |
List the steps in developing an ellipse using the alternate four-center ellipse method.
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| 4 | |
Describe how irregular curved surfaces are developed in oblique drawings.
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| 5 | |
Describe how angles are determined in oblique drawings.
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| 6 | |
Describe how dimensions are placed on oblique drawings.
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| 7 | |
Describe how screw threads are represented in oblique drawings.
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| 8 | |
Define axonometric.
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| 9 | |
Define isometric, dimetric, and trimetric drawings.
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| 10 | |
Explain the difference between an isometric projection and an isometric drawing. Which would be drawn larger?
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| 11 | |
Sketch the axes used for an isometric drawing.
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| 12 | |
Sketch the axes used for regular, reversed, and long axis isometric drawings.
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| 13 | |
What is the general rule used for hidden lines in isometric drawings.
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| 14 | |
Give some examples of why pictorial drawings are used in industry.
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| 15 | |
Sketch an isometric cube then represent how isometric ellipses would be drawn on each face of the cube. Add center lines to the ellipses.
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| 16 | |
Which type of axonometric drawing is most commonly used in industry?
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| 17 | |
What are the three angular measurements of an isometric drawing axes?
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