What is the formula for calculating the average stopping force in this scenario?

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To calculate the average stopping force for a man dropping from a height of 0.60 m, the average acceleration is found to be 293.95 m/s². The initial calculation of force using F=ma resulted in an incorrect value due to confusion over the forces involved. The stopping force should account for both the normal force exerted by the ground and the gravitational force acting downward. The net force calculated does not represent the stopping force, which is the normal force opposing gravity. Understanding these forces is crucial to accurately solving the problem.
physics19
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A 68 kg man drops to a concrete patio from a window only 0.60 m above the patio. He neglects to bend his knees on landing, taking 2.0 cm to stop. What is the magnitude of the average stopping force?

-From this problem I have already found that the average acceleration is 293.95 m/s^2. I tried to find the average force by using the formula F=ma. F=68kg(293.95m/s^2)=199988 N. However that is not right. I need is a formula to compute the average stopping force. Thank you.
 
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Welcome to Physics Forums, physics19!

Your method looks good, but you have an extra factor of 10 for some reason.

Try multiplying 68 x 293.95 again.
 
Thank you.. I actually copied down the wrong number when I inputed the answer. I got 19988N as my answer but that is not correct. My friend came up with the same result too and both of us are scratching our heads because we are not sure why it is not the correct answer. I was thinking that there may actually be another force that I have to account for but am not sure.
 
physics19 said:
Thank you.. I actually copied down the wrong number when I inputed the answer. I got 19988N as my answer but that is not correct. My friend came up with the same result too and both of us are scratching our heads because we are not sure why it is not the correct answer. I was thinking that there may actually be another force that I have to account for but am not sure.
Yes, there is another force. The wording of the problem is a tad bit confusing, but it does ask for the stopping force, which I take as the normal force of the ground on the person, and not the net force, which you have calculated. The normal force acts up; what other force on the person acts down??
 
Okay, I might know what's going on now.

Acceleration x mass gives the net force acting on the man.

"Stopping force" refers to the force of the concrete/ground on the man. What other force also acts on him?
 
Redbelly98 said:
Okay, I might know what's going on now.

Acceleration x mass gives the net force acting on the man.

"Stopping force" refers to the force of the concrete/ground on the man. What other force also acts on him?

hmmm I am not sure... this is a very confusing problem that the teacher has asked us!
 
What force caused the man to drop in the first place?
 
the gravity.
 

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