Use the letter associated with each of the following FBD's questions #1 through #12:

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Use the letter associated with each of the following FBD's [Free Body Diagrams] to answer questions #1 through #12: A. A free body diagram with the following forces: - \( \vec{f_{form}} \) pointing up - \( \vec{f_{grav}} \) pointing down - \( \vec{f_{app}} \) pointing to the right - \( \vec{f_{frict}} \) pointing to the left B. A free body diagram with the following forces: - \( \vec{f_{norm}} \) pointing up - \( \vec{f_{grav}} \) pointing down - \( \vec{f_{frict}} \) pointing to the left - \( \vec{f_{app}} \) pointing to the right C. A free body diagram with the following forces: - \( \vec{f_{norm}} \) pointing up - \( \vec{f_{grav}} \) pointing down - \( \vec{f_{frict}} \) pointing to the left D. A free body diagram with the following forces: - \( \vec{f_{norm}} \) pointing up - \( \vec{f_{grav}} \) pointing down E. A free body diagram with the following forces: - Two forces \( \vec{f_{tens}} \) pointing up - \( \vec{f_{grav}} \) pointing down F. A free body diagram with the following forces: - \( \vec{f_{air}} \) pointing up - \( \vec{f_{grav}} \) pointing down G. A free body diagram with the following force: - \( \vec{f_{grav}} \) pointing down Explanation of Symbols: - \( \vec{f_{form}} \): An upward force, possibly a normal or supportive force. - \( \vec{f_{grav}} \): The gravitational force acting downward. - \( \vec{f_{app}} \): An applied force acting to the right. - \( \vec{f_{frict}} \): The frictional force acting to the left. - \( \vec{f_{norm}} \): The normal force acting upward. - \( \vec{f_{tens}} \): Tensile forces acting upward. - \( \vec{f_{air}} \

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### Physics Questions #### Question 9 **Prompt:** A box is pushed to the right at a constant velocity with friction. **Options:** - G - E - C - D - A - F - B #### Question 10 **Prompt:** You are pushing a box to the right but friction prevents the box from moving. **Options:** - D - A - C - F - E - B - G --- For educational purposes, these questions require an understanding of the forces acting on a box in the presence of friction. In **Question 9**, to maintain a constant velocity, the net force on the box must be zero, meaning the pushing force equals the frictional force. In **Question 10**, friction prevents the box from moving, indicating the pushing force is equal to or less than the maximum static friction force.