Very large forces are produced in joints when a person jumps from some height to the ground. Calculate the force produced if an 79.0–kg person jumps from a 0.510–m-high ledge and lands stiffly, compressing joint material 1.30 cm as a result. (Be certain to include the weight of the person.) 3.04*10^4J Incorrect. Tries 1/7 Previous Tries In practice the knees bend almost involuntarily to help extend the distance over which you stop. Calculate the force produced if the stopping distance is 0.345 m. 1.92×103 J You are correct. Find the ratio of the force in part (a) with the weight of the person. Tries 0/7 Find the ratio of the force in part (b) with the weight of the person.

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batolisis batolisis · Answer 1 · 2020-11-04T12:53:27+01:00

Answer:

A) 31 kJ

B) 1.92 KJ

C) 40 , 2.48

Explanation:

weight of person ( m ) = 79 kg

height of jump ( h ) = 0.510 m

Compression of joint material ( d ) = 1.30 cm ≈ 0.013 m

A) calculate the force

Fd = mgh

F = mgh / d

W = mg

F(net) = W + F = mg ( 1 + [tex]\frac{h}{d} )[/tex]

= 79 * 9.81 ( 1 + (0.51 / 0.013) )

= 774.99 ( 40.231 ) ≈ 31 KJ

B) calculate the force when the stopping distance = 0.345 m

d = 0.345 m

Fd = mgh hence F = mgh / d

F(net) = W + F = mg ( 1 + [tex]\frac{h}{d} )[/tex]

= 79 * 9.81 ( 1 + (0.51 / 0.345) )

= 774.99 ( 2.478 ) = 1.92 KJ

C) Ratio of force in part a with weight of person

= 31000 / ( 79 * 9.81 ) = 31000 / 774.99 = 40

Ratio of force in part b with weight of person

= 1920 / 774.99 = 2.48