Answer to Question #322698 in Calculus for Kingkachif

The external force that stretches a spring a distance x from its equilibrium position is 

"F = kx" ,

"F=mg",

so "k = \\frac{F}{x}=\\frac{mg}{x}"

"m=8lb\\approx8\\cdot0.4536kg=3.6288kg"

"1.5in=1.5\\cdot2.54\\cdot10^{-2}m=3.81\\cdot10^{-2}m"

"k = \\frac{3.6288kg\\cdot 9.81 m\/s^2}{3.81\\cdot10^{-2}m}\\approx934.34N\/m" .

The work that must be done to stretch spring a distance x from its equilibrium position is

"W=\\frac12kx^2"

(a) Find the work done in stretching the spring from its natural length to a length of 14 in.

"x=14in-10in=4in=4\\cdot2.54\\cdot10^{-2}m"=0.1008m;

"W=\\frac12\\cdot934.34N\/m\\cdot (0.1008m)^2""\\approx4.75J".

(b) Find the work done in stretching the spring from a length of 11 in. to a length of 13 in.

To find this work we should subtract work that must be done to stretch spring a distance 11 in from the work that must be done to stretch spring a distance 13 in.

"\\Delta W=\\frac12k(x_2)^2-\\frac12k(x_1)^2" , where

"x_2=13in-10in=3in=7.62\\cdot10^{-2}m" ;

"x_1=11in-10in=1in=2.54\\cdot10^{-2}m"

"\\Delta W=\\frac12\\cdot934.34N\/m((7.62\\cdot10^{-2}m)^2-""(2.54\\cdot10^{-2}m)^2)\\approx2.41J"