The equation would be
V= \pi r^{2} h[/tex]
so if you substitute, you'd have to solve for the radius, which can be found by doing
This gives you
So now we can solve for the volume by using the substituted values in the original equation
which simplifies down to
so you could answer
or
84556941663448.00
I would recommend the one in scientific notation
Whats the question so I can answer
Answer:
28
Step-by-step explanation:
the highest is 30 subtract that by 2 because it is 2 spaces below and then your answer should be 28
You have to integrate two equations, one for the case where the value in the absolute signs is negative and one for the case where the value is positive...
So you will integrate one on the interval 0 to 1 and the other on the interval from 1 to 3...
⌠-x+1 dx, x=[0,1] + ⌠x-1 dx, x=[1,3]
(-x^2/2+x)[0,1] + (x^2/2-x)[1,3]
(-0.5+1)+(4.5-3-0.5+1)
(0.5)+(2)
2.5 u^2