A 50.0 kg athlete is suspended motionless from the end of a light rope attached to the ceiling. 1. Draw a free-body diagram for the athlete. 2. Draw a free-body diagram for the rope. 3. Determine the athlete’s weight. 4. What are the magnitude and direction of the force that the rope has exerted upon the athlete? 5. Calculate the tension force found on the upper end of the rope. Two ropes of negligible mass hold a large steel ball of mass = 4.09 ✕ 10 6 g such that it is motionless, as shown below. 1. Draw a free-body diagram for the ball. 2. Calculate the weight of the ball in N. 3. Identify the along the vertical. 4. Determine the tension force TB in the rope with a 45-degree angle from the vertical. 5. Determine the tension force TA in the horizontal rope.
A 50.0 kg athlete is suspended motionless from the end of a light rope attached to the ceiling. 1. Draw a free-body diagram for the athlete. 2. Draw a free-body diagram for the rope. 3. Determine the athlete’s weight. 4. What are the magnitude and direction of the force that the rope has exerted upon the athlete? 5. Calculate the tension force found on the upper end of the rope. Two ropes of negligible mass hold a large steel ball of mass = 4.09 ✕ 10 6 g such that it is motionless, as shown below. 1. Draw a free-body diagram for the ball. 2. Calculate the weight of the ball in N. 3. Identify the along the vertical. 4. Determine the tension force TB in the rope with a 45-degree angle from the vertical. 5. Determine the tension force TA in the horizontal rope.
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter5: Newton's Law Of Motion
Section: Chapter Questions
Problem 27P: Astronauts in orbit are apparently weightless. This means that a clever method of measuring the mass...
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Question
A 50.0 kg athlete is suspended motionless from the end of a light rope attached to
the ceiling.
1. Draw a free-body diagram for the athlete.
2. Draw a free-body diagram for the rope.
3. Determine the athlete’s weight.
4. What are the magnitude and direction of the force that the rope has exerted
upon the athlete?
5. Calculate the tension force found on the upper end of the rope.
Two ropes of negligible mass hold a large steel ball of mass = 4.09 ✕ 10
6 g such that
it is motionless, as shown below.
1. Draw a free-body diagram for the ball.
2. Calculate the weight of the ball in N.
3. Identify the along the vertical.
4. Determine the tension force TB
in the rope with a 45-degree angle from the
vertical.
5. Determine the tension force TA
in the horizontal rope.
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