Question #7dd0d

2 Answers
Jul 18, 2017

#s=600.25#

Explanation:

To get #sqrt(s)# on its own, we multiply both sides by #sqrt(s)/0.336#.

#0.336*color(red)(sqrt(s)/0.336)=(1.96*4.2)/sqrt(s)*color(red)(sqrt(s)/0.336)#

#(cancel(0.336)color(red)(sqrt(s)))/cancel(0.336)=(1.96*4.2*cancel(color(red)(sqrt(s))))/(color(red)(0.336)cancel(sqrt(s)#

#(sqrt(s))^2=s=((1.96*4.2)/0.336)^2=600.25#

Jul 18, 2017

See a solution process below:

Explanation:

First, evaluate the numerator of the fraction on the right side of the equation:

#0.336 = (1.96 * 4.2)/sqrt(s)#

#0.336 = 8.232/sqrt(s)#

Next, multiply each side of the equation by #color(red)(sqrt(s))# to eliminate the fraction and keeping the equation balanced:

#0.336 xx color(red)(sqrt(s)) = 8.232/sqrt(s) xx color(red)(sqrt(s))#

#0.336sqrt(s) = 8.232/color(red)(cancel(color(black)(sqrt(s)))) xx cancel(color(red)(sqrt(s)))#

#0.336sqrt(s) = 8.232#

Then, divide each side of the equation by #color(red)(0.336)# to isolate the radical while keeping the equation balanced:

#(0.336sqrt(s))/color(red)(0.336) = 8.232/color(red)(0.336)#

#(color(red)(cancel(color(black)(0.336)))sqrt(s))/cancel(color(red)(0.336)) = 24.5#

#sqrt(s) = 24.5#

Now, square both sides of the equation to solve for #s# while keeping the equation balanced:

#(sqrt(s))^2 = 24.5^2#

#s = 600.25#