In the figure the man hanging upside down is holding a partner who weighs 535 N. Assume that the partner moves on a ci...
Homework Answers
The force at the bottom is mv^2/r + mg.
For mass, 535/9.8 = 54.6 kg
F = (54.6)(3.75)^2/6.5 + (535)
F = 653.1 N
In rotational motion, according to Newton's second law, F=mv^2/r. Therefore, the force required to keep the man's partner in circular motion is:
F=mv^2/r
m=535/9.8=54.59kg
v=3.75m/s
r=6.5m
F=((54.59kg)(3.7 m/s)^2)/6.5m=114.97N.
However, since his partner is in the straight-down position, the man also has to apply force to keep his partner from falling down due to gravity, so you have to add the partner's weight:
Force total = 114.97N + 535N = 649.97N
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