Speed, Kinetic Energy, Force Problem.

AI Thread Summary
The discussion revolves around a physics problem involving an 80 kg man jumping onto a spring-mounted platform from a height of 3.00 m. The key questions are determining the man's speed when the platform is depressed by 0.100 m and how far the platform would compress if he stepped gently onto it. Participants suggest using energy conservation principles rather than kinematics or Newton's laws for a simpler solution. The conversation highlights the importance of understanding energy methods in solving such problems. The discussion emphasizes the need for clarity in the problem statement and the application of relevant physics concepts.
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Homework Statement


An 80 kg man jumps from a height of 3.00 m onto a platform mounted on springs. As the springs compress, the platform is pushed down a maximum distance of 0.200 m below its initial position, and then it rebounds. The platform and springs have negligible mass.

a. what is the man's speed at the instant the platform is depressed 0.100 m

b. if the man had just stepped gently onto the platform, how far would it have been pushed down?

Homework Equations


a = V/t
v = d / t
F = ma

The Attempt at a Solution


i've tried solving this one, and I am stuck. here's what i did:

a = V/t
V = at

V = d/t
d/t = at

t = (d/a)^-2 = 0.553 s

V = 9.81(0.553) = 5.425 s

F = ma = 80 kg (9.81) = 62.784 kJ

and i don't know what to do next... please help me.
 
Last edited:
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Whats the actual question?
 
i edited my previous post. i added the questions. my bad. :(
 
Although this problem may be solved using kinematics and Newton's laws, it is much easier to use energy methods. Are you familiar with the law of energy conservation?
 

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