prophecygirl
Jun12-09, 10:41 PM
1. The problem statement, all variables and given/known data
This is an MCAT practice problem that is driving me crazy! The answer is supposed to be 2200N on each foot. Any help would be much appreciated! Thanks in advance!
A guy, whose mass is 80 kg, jumps off a bench that is 1 meter off the ground. Immediately after landing on the ground with both feet, he jumps 1 meter up into the air. What is the average force on his left foot if the time of contact with the ground is 0.2 seconds?
2. Relevant equations
vf^2 = vi^2 + 2ad
Fnet = m(vf-vi)/time
3. The attempt at a solution
Fnet = Fground - Fgravity
Fgravity = mg
Fground = Fnet + mg
Need to find change in velocity:
vf (at top of jump) = 0 m/s
d = 1m (with downward chosen as positive direction)
a = g = 9.8 m/s^2
vf^2 = vi^2 + 2ad
vi^2 = -2ad = -(2)(9.8 m/s^2)(1 m)
vi = -4.43 m/s = 4.43 m/s upward
Plugging into impulse equation:
Fnet = m(vf-vi)/time
Fnet = (80 kg) (4.43 m/s)/0.2 s = 1772 N
Fground = Fnet + mg = 1772 N + (80 kg)(9.8 m/s^2) = 2556 N
If the total Fground is 2556 N, the Fground on each foot is 2256 N/2 = 1278 N.
As mentioned above, the answer is supposed to be 2200 N on each foot.
This is an MCAT practice problem that is driving me crazy! The answer is supposed to be 2200N on each foot. Any help would be much appreciated! Thanks in advance!
A guy, whose mass is 80 kg, jumps off a bench that is 1 meter off the ground. Immediately after landing on the ground with both feet, he jumps 1 meter up into the air. What is the average force on his left foot if the time of contact with the ground is 0.2 seconds?
2. Relevant equations
vf^2 = vi^2 + 2ad
Fnet = m(vf-vi)/time
3. The attempt at a solution
Fnet = Fground - Fgravity
Fgravity = mg
Fground = Fnet + mg
Need to find change in velocity:
vf (at top of jump) = 0 m/s
d = 1m (with downward chosen as positive direction)
a = g = 9.8 m/s^2
vf^2 = vi^2 + 2ad
vi^2 = -2ad = -(2)(9.8 m/s^2)(1 m)
vi = -4.43 m/s = 4.43 m/s upward
Plugging into impulse equation:
Fnet = m(vf-vi)/time
Fnet = (80 kg) (4.43 m/s)/0.2 s = 1772 N
Fground = Fnet + mg = 1772 N + (80 kg)(9.8 m/s^2) = 2556 N
If the total Fground is 2556 N, the Fground on each foot is 2256 N/2 = 1278 N.
As mentioned above, the answer is supposed to be 2200 N on each foot.