Answer to Question #325785 in Calculus for sydy

a)

Points of interception:

"x^2+y-4=0\\\\x-y+2=0"

"x^2+x+2-4=0"

"x=-2" , "x=1" .

V(S) can be obtained if we subtract volume

bounded by "x-y+2=0" , "y=0" , "-2\\le x\\le1" and revolved about "y=0"

from the volume

bounded by "x^2+y-4=0" , "y=0" , "-2\\le x\\le1" and revolved about "y=0"

"V(S)=\\pi\\int_{-2}^1((-x^2+4)^2-(x+2)^2)dx" "=\\pi\\int_{-2}^1(x^4-8x^2+16-x^2-4x-4)dx"

"=\\pi(x^5\/5-9x^3\/3-4x^2\/2+12x)|_{-2}^1" "=\\pi(1\/5-3-2+12+32\/5-3\\cdot8""+2\\cdot4+12\\cdot2) =108\\pi\/5"

b)

Let’s move to new coordinates:

"t=x+2"

u=y

Now region R is bounded by

"(t-2)^2+u-4=0" and "t-u=0"

V(S) is obtained by revolving R about "t=0"

Look at the picture. Region R is divided into R1 and R2.

Volume V1 is obtained by revolving R1 about "t=0" can be calculated by subtracting volume

bounded by "t=2-\\sqrt{4-u}" , "t=0" , "0\\le u\\le3" and revolved about "t=0"

from the volume

bounded by "t=u" , "t=0" , "0\\le u\\le3" and revolved about "t=0".

"V1=\\int_0^3\\pi(u^2-(2-\\sqrt{4-u})^2)du"

Volume V2 is obtained by revolving R2 about "t=0" can be calculated by subtracting volume bounded by "t=2-\\sqrt{4-u}" , "t=0" , "3\\le u\\le4" and revolved about "t=0"

from the volume

bounded by "t=2+\\sqrt{4-u}" , "t=0" , "3\\le u\\le4" and revolved about "t=0".

"V2=\\int_3^4\\pi((2+\\sqrt{4-u})^2-(2-\\sqrt{4-u})^2)du"

"V(S)=V1+V2=""\\int_0^3\\pi(u^2-(2-\\sqrt{4-u})^2)du+""\\int_3^4\\pi((2+\\sqrt{4-u})^2-(2-\\sqrt{4-u})^2)du"