Question

Question: A bowler holds a bowling ball (M = 7.2 Kg) in the palm of his hand (Figure 12-37). His upper arm is vertical; his lower arm (1.8 kg) is horizontal. What is the magnitude of (a) the force of the biceps muscle on the lower arm and (b) the force between the bony structures at the elbow contact point?

Short answer

Answer

1. The magnitude of the force of the biceps muscle on the lower arm,$T=6.5\times {10}^2\text{N}$ .
2. Force between the bony structures at the elbow contact point, $F=5.6\times {10}^2\text{N}$.
   
   

Step-by-step solution

Understanding the given information

1. Distance between the elbow point of contact and the lower arm CM, $D=0.15\text{m},d=0.04\text{m}$.
2. Distance between the elbow point of contact and the palm, L =0.33m .
3. Mass of the ball,M =7.2 kg .
4. Mass of the lower arm,m =1.8 kg .

Concept and formula used in the given question

The ball is held in hands and balanced. It is neither moving linearly nor rotating about any pivot point. So, it is in static equilibrium condition. By selecting a pivot point and applying the static equilibrium conditions, you can write the torque equation in terms of force and distance. Solving this equation, you would get the unknown tension and force.

(a) Calculation for the force of the biceps muscle on the lower arm

Using the figure given in the problem andcondition of static equilibrium, we can write torque and force equations as,

$$\begin{gathered} \sum Torque=0 \\ \left(d\times T\right)+\left(0\times F\right)-\left(D\times mg\right)-\left(L\times Mg\right)=0...........................\left(1\right) \\ \sum F_x=0 \\ F+\left(M+m\right)g-T=0.........................\left(2\right) \end{gathered}$$

Substitute the values in equation 1, and we get,

$$\begin{gathered} \left(0.04\times T\right)+0-\left(0.15\times 1.8\times 9.8\right)-\left(0.33\times 7.2\times 9.8\right)=0 \\ T\times 0.04=25.9308 \\ T=648\text{N} \end{gathered}$$

Hence, the magnitude of the force of the bicep muscle on the lower arm is$6.5\times {10}^2\text{N}$ .

(b) Calculation for the force between the bony structures at the elbow contact point

Substitute the values in equation 2, and we get,

$$\begin{gathered} F+\left(7.2+1.8\right)\times 9.8-648=0 \\ F+88.2-648=0 \\ F\approx 560\text{N} \end{gathered}$$

Hence, the force between the bony structures at the elbow contact point is $5.6\times {10}^2\text{N}$.