Answer:
The force exerted by the muscle is 852.27N
Explanation:
Force F exerted by the muscle is expressed as a function of the torque τ and the effective perpendicular arm r.
F = τ/r ... (1)
Where τ = moment of inertia I × angular acceleration α
τ = Iα ... (2)
Substituting equation 2 into 1 to get F will give;
F = Iα/r
Given the following parameters
I = 0.75kgm²
α = 37.5rad/s²
r = 3.30cm = 0.033m
F = 0.75(37.5)/0.033
F = 28.125/0.033
F = 852.27N
The force exerted by the muscle is 852.27N
Answer:
Force exerted by muscle = 852.27N
Explanation:
We are given that;
lever arm; d = 3.3cm = 0.033m
Angular acceleration; α = 37.5 rad/s²
Moment of inertia of Leg; I = 0.75 kg.m²
Now, we know that torque is given by the relationship ;
τ = Iα
Where, I is moment of inertia and α is angular acceleration.
Thus,
τ = 0.75 x 37.5 = 28.125 N.m
Now, the relationship between torque and force is given by;
Torque = Force x perpendicular distance
We have torque = 28.125 N.m
We also have perpendicular distance as the lever arm = 0.033m
Thus,
28.125 N.m = Force x 0.033m
Thus,
Force = 28.125 N.m/0.033m
Force = 852.27N
