Question: Figure 12-29 shows a diver of weight 580 N standing at the end of a diving board with a length of L =4.5 mand negligible v mass. The board is fixed to two pedestals (supports) that are separated by distance d = 1 .5 m. Of the forces acting on the board, what are the (a) magnitude and (b) direction (up or down) of the force from the left pedestal and the (c) magnitude and (d) direction (up or down) of the force from the right pedestal? (e) Which pedestal (left or right) is being stretched, and (f) which pedestal is being compressed?

$$\begin{gathered} L=4.5\text{m} \\ d=1.5\text{m} \\ W=580\text{N} \end{gathered}$$

Using the concept of static equilibrium, you can write the equation for the force and torque. From these equations, you can find forces and their directions. The equations are given below.

Static Equilibrium conditions:

$$\begin{gathered} \sum F_x=0 \\ \sum F_y=0 \\ \sum \tau =0 \end{gathered}$$

FBD of the diving board:

Applying equilibrium conditions to FBD:

$$\begin{gathered} \sum F_y=0 \\ {F}_1+F_2-W=0·······\left(1\right) \end{gathered}$$

Taking torque at point

$$\begin{gathered} \sum \tau =0 \\ {F}_1\times d+W\times \left(L-d\right)=0······\left(2\right) \\ {F}_1\times 1.5+580\left(4.5-1.5\right)=0 \end{gathered}$$

By solving for F₁ :

$F_1=-1160\text{N}$

By rounding off to appropriate significant figures:

$F_1=1200\text{N}$

The magnitude of force from the left pedestal is,

.$$\begin{gathered} F_1=1200\text{N} \\ =1.2\times {10}^3\text{N} \end{gathered}$$

The negative value of F₁ indicates that it is directed downward.

Now plugging in the value of F₁ into equation no. :

$-1200+F_2-580=0$

By solving for F₂ :

$F_2=1780\text{N}$

By rounding off to appropriate significant figures:

$F_2=1700\text{N}$

The magnitude of force from the right pedestal is $F_2=1.7\times {10}^3\text{N}$.

The positive value of F₂ indicates that it is directed upward.

The force on the left pedestal is in an upward direction, so the left pedestal is being stretched.

The force on right pedestal is in a downward direction, so the right pedestal is being compressed.