1. Read and study the functional requirements of the application above. On the product drawing, select the datum feature and apply one of the coaxial controls discussed in this unit. Make sure your feature control frame and tolerance meets the requirement stated above. (Please use attached image)

2. Consider another example Suppose there was a mating fit requirment with a tight size tolerance on the 3.000 OD above and then a seperate location requirement to be met. Which coaxial would you consider using? Explain.

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Transcribed Image Text:

**Workshop Exercise 14.1** **This Application** The wheel mounts on the axle and cannot be adjusted up and down. The air gap is critical and must remain within .010 to .020. The diagram shows the following components: - **Axle:** Depicted as a horizontal blue cylinder. - **Wheel:** Shown as a vertical green cylinder attached perpendicularly to the axle. - **Mating Part:** The area between the axle and wheel. **Dimensional Details:** - The air gap between the axle and the mating part has a minimum of .010 and a maximum of .020. - The wheel has a width dimension labeled as 1.515. **This on the Drawing** Another diagram provides detailed dimensions: - The circle representing the wheel has an outer diameter (OD) of 3.000. - The inner diameter (ID) ranges from .998 to 1.000. **Questions** 23. Read and study the functional requirements of the application above. On the product drawing, select the datum feature and apply one of the coaxial controls discussed in this unit. Make sure your feature control frame and tolerance meets the requirements stated above. 24. Consider another example. Suppose there was a mating fit requirement with a tight size tolerance on the 3.000 OD above and then a separate location requirement to be met. Which coaxial control would you consider using? Explain? (Answer space provided)