$\Sigma M_{R2} = 0$

$12R_1 = W(6) + 2W(3)$

$R_1 = W$

$\Sigma M_{R1} = 0$

$12R_2 = W(6) + 2W(9)$

$R_2 = 2W$

Based on allowable bending stress:

$f_b = \dfrac{6M}{bd^2}$

$1500 = \dfrac{6(45W/8)(12)}{6(10^3)}$

$W = 2\,222.22 \, \text{ lb}$

Based on allowable shearing stress:

$f_v = \dfrac{3V}{2bd}$

$120 = \dfrac{3(2W)}{2(6)(10)}$

$W = 2400 \, \text{ lb}$

For safe value of W, use **W = 2 222.22 lb**. *answer*

## Comments

## Hello po sir Jun

Hello po sir Jun

Hindi po ba" 12 w" Ang equivalent concentrated load Ng uniform" w".?

## total distributed load = W =

totaldistributed load = W = 12w.