1. Calculate the work done on the suitcase by  F→.

Express your answer with the appropriate units.

2. Calculate the work done on the suitcase by the gravitational force.

Express your answer with the appropriate units.

3.Calculate the work done on the suitcase by the normal force.

Express your answer with the appropriate units.

4. Calculate the work done on the suitcase by the friction force.

Express your answer with the appropriate units.

5. Calculate the total work done on the suitcase.

Express your answer with the appropriate units.

6. If the speed of the suitcase is zero at the bottom of the ramp, what is its speed after it has traveled 3.90 mm along the ramp?

Express your answer with the appropriate units.

Transcribed Image Text:

In this physics problem, we are examining a scenario where a luggage handler pulls a suitcase up an inclined ramp. Specifically: - The suitcase has a mass of 19.0 kg. - The ramp is inclined at an angle of 34.0° above the horizontal. - The suitcase is pulled by a force \( \mathbf{F} \) with a magnitude of 167 N. This force acts parallel to the ramp. - The coefficient of kinetic friction between the suitcase and the ramp is 0.310. - The suitcase travels a distance of 3.90 m along the ramp. This scenario can be analyzed to determine various physical quantities such as work done by the force, work done by friction, and the net work done on the suitcase, among other things. Diagrams and graphs are not provided in the text, but for a complete educational resource, one might include a force diagram showing the components of forces acting on the suitcase (gravity, normal force, frictional force, and the applied force).