a force of 10 pounds is required to stretch a spring of 4 inches beyond it's natural length. assuming hooke's law applies, how much work is done in stretching the spring from its natural length to 6 inches beyond its natural length.

what i did so far:
F(x)=kx
10=k4
k=5/2

by hooke's law i need to find the integral of 5/2x right. but what are the bounds.

All you have to do is use the formula
Work = potential energy increase = (1/2) k x^2, where k is the spring constant that you computed (which is 2.5 lb/inch) and x = 6 inches.

The answer wil be in inch-lb. If you want it in foor-lb, you will have to divide by 12.

You could also do it by integration
Work - Integral of F dx = Integral of kx dx from x=0 to x=6. The answer is the same.

1 answer

15/4...... (1/2)(2.5)(6^2)=45 in/lb converto to feet divide by 12... 15/4