3. In the diagram below, a rock climber has attached himself to a large rock in an effort to rappel, that is, make a controlled descent off this cliff's vertical drop. The surface that the rock is resting on is frictionless. Draw two free body diagrams; one for the climber and one for the rock. Look at your free body diagrams and decide (based on your drawings only) if the climber accelerates downwards or descends with a constant speed. No other calculations are required for this problem.
3. In the diagram below, a rock climber has attached himself to a large rock in an effort to rappel, that is, make a controlled descent off this cliff's vertical drop. The surface that the rock is resting on is frictionless. Draw two free body diagrams; one for the climber and one for the rock. Look at your free body diagrams and decide (based on your drawings only) if the climber accelerates downwards or descends with a constant speed. No other calculations are required for this problem.
Transcribed Image Text:3. In the diagram below, a rock climber has attached himself to a large rock in an
effort to rappel, that is, make a controlled descent off this cliff's vertical drop. The
surface that the rock is resting on is frictionless.
Draw two free body diagrams; one for the climber and one for the rock.
Look at your free body diagrams and decide (based on your drawings only) if the
climber accelerates downwards or descends with a constant speed.
No other calculations are required for this problem.
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Follow-up Question
How would the free body diagram change for the same situation described in the image except with there being friction?
Transcribed Image Text:3. In the diagram below, a rock climber has attached himself to a large rock in an
effort to rappel, that is, make a controlled descent off this cliff's vertical drop. The
surface that the rock is resting on is frictionless.
Draw two free body diagrams; one for the climber and one for the rock.
Look at your free body diagrams and decide (based on your drawings only) if the
climber accelerates downwards or descends with a constant speed.
No other calculations are required for this problem.
Read through expert solutions to related follow-up questions below.
Follow-up Question
How would the free body diagram change for the same situation described in the image except with there being friction?
Transcribed Image Text:3. In the diagram below, a rock climber has attached himself to a large rock in an
effort to rappel, that is, make a controlled descent off this cliff's vertical drop. The
surface that the rock is resting on is frictionless.
Draw two free body diagrams; one for the climber and one for the rock.
Look at your free body diagrams and decide (based on your drawings only) if the
climber accelerates downwards or descends with a constant speed.
No other calculations are required for this problem.
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