Question

A 36-mph wind blows against an outdoor movie screen that is 70 ft wide and 20 ft tall. Estimate the wind force on the screen. Use drag coefficient Cd = 1.15.

Answer 1

Answer:

The wind force on the screen is approximately 5,341.5936 $lb_f$

Explanation:

The speed of the wind, v = 36 mph

The width of the outdoor movie, w = 70 ft. wide

The height of the outdoor movie, h = 20 ft. tall

The drag coefficient, Cd = 1.15

We have;

$C_d = \dfrac{F}{\dfrac{\rho \cdot v^2 \cdot A}{2} }$

From which we have;

The wind force, F = 0.00256·$C_d$·v²·A

Where;

A = The cross sectional area of the rectangular outdoor movie screen, A = w × h

∴ A = 70 ft. × 20 ft. = 1,400 ft.²

The wind force, F = 0.00256 × 1.15 × (36 mph)² × 1,400 ft.² = 5,341.5936 $lb_f$

The wind force on the screen, F = 5,341.5936 $lb_f$.