Determine the smallest force P that must be applied in order to cause the 150-lb uniform crate to move. The coefficient of static friction between the crate and the floor is u= 0.5.

Transcribed Image Text:

### Image Description for Educational Context #### Illustration Explanation: The image depicts a person pushing a large rectangular crate. The crate has dimensions clearly marked: 2 feet in width and 3 feet in height. The person is exerting a force labeled as "P" on the crate. #### Key Elements: - **Crate Dimensions**: - Width: 2 feet - Height: 3 feet - **Force Application**: - The person is shown pushing against the crate with their hands. - The point of application of force "P" is indicated by an arrow pointing towards the crate. #### Contextual Application: - **Physics Problems**: - The image is a practical representation for physics problems related to forces and motion. - Students can explore concepts such as torque, force equilibrium, and the effect of applied force on immovable objects. - **Problem Reference**: - The image corresponds to "Probs. 8–32/33," which typically suggests that it is tied to specific problems in an educational textbook or resource. This illustration serves as a visual aid to help understand the physical forces at play when pushing an object and to apply theoretical knowledge to practical situations.