1. Find the volume of the solid under the cone z= sqrt (x^2 + y^2) and over the ring 4 |\eq x^2 + y^2 |\eq 25.
2. Find the volume of the solid under the plane 6x + 4y + z= 12 and over the disk with border x^2 + y^2 = y.
3. The area of the smallest region, locked by the spiral r\Theta= 1, the circles r=1 and r=3 and the polar axis.
1. Find the volume of the solid under the cone z= sqrt (x^2 + y^2) and...
1. Using polar coordinates in the x-y plane, find the volume of the solid above the cone z r and below the hemisphere z= v8-r2. As a check the answer is approximately 13.88 but of course you have to calculate the exact answer 2. At the right is the graph of the 8-leafed rose r 1+2cos(40) Calculate the area of the small leaf. As a check the answer is 0.136 to 3 places of decimal (But of course you have...
Find the volume of the solid by subtracting two volumes, the solid enclosed by the parabolic cylinders y = 1 − x2, y = x2 − 1 and the planes x + y + z = 2, 6x + 4y − z + 16 = 0.
Find the volume of the given solid region bounded below by the cone z = \x² + y2 and bounded above by the sphere x2 + y2 + z2 = 8, using triple integrals. (0,0,18) 5) 1 x? +y? +22=8 2-\x?+y? The volume of the solid is (Type an exact answer, using a as needed.)
EXAMPLE 4 Find the volume of the solid that lies under the paraboloid z 5x2 - 5y2, above the xy-plane, and inside the cylinder x2 + y2-2x (x-1)2 + y2=1 or r 2 cos 8 SOLUTION The solid lies above the disk D whose boundary circle has equation x2 +y2x or, after completing the square, In polar coordinates we have x2 +y Thus the disk D is given by and x-r cos(), so the boundary circle becomes 2r cos(), or...
Find the volume of the solid region R bounded superiorly by the paraboloid z=1-(x^2)-(y^2), and inferiorly by the plane z=1-y taking into account that when equaling the values of z we obtain the intersections of the two surfaces produced in the circular cylinder given by 1-y=1-(x^2)-(y^2) => (x^2)=y-(y^2), as the volume of R is the difference between the volume under the paraboloid and the volume under the plane you can obtain the dimensions for the integrals and calculate the volume
The solid E is bounded below z = sqrt(x^2 + y^2) and above the sphere x^2 + y^2 + z^2 = 9. a. Sketch the solid. b. Set up, but do not evaluate, a triple integral in spherical coordinates that gives the volume of the solid E. Show work to get limits. c. Set up, but do not evaluate, a triple integral in cylindrical coordinates that gives the volume of the solid E. Show work to get limits.
plane, and outside the cone z-5V x2 (1 point Find the volume of the solid that lies within the sphere x2 ,2 + z2-25, above the x (1 point) Find the mass of the triangular region with vertices (0,0), (1, 0), and (0, 5), with density function ρ (x,y) = x2 +y. plane, and outside the cone z-5V x2 (1 point Find the volume of the solid that lies within the sphere x2 ,2 + z2-25, above the x (1...
Double Intergals in Polar Coordinates: 4. Use polar coordinates to find the volume of the solid that is bounded by the paraboloids z = 3x^2 + 3y^2 and z = 4 ? x^2 ? y^2. 5. Evaluate by converting to polar coordinates ? -3 to3 * ? 0 to sqrt(9-x^2) (sin(x^2 +y^2) dydx 6. Evaluate by converting to polar coordinates: ? 0 to 1 * ? -sqrt(1-y^2) to 0 (x^2(y)) dxdy
4 + x2 + (y-2)2 and the planes z = 1, x =-2, x Find the volume of the solid enclosed by the paraboloid z 2, y 0, and y 4. 4 + x2 + (y-2)2 and the planes z = 1, x =-2, x Find the volume of the solid enclosed by the paraboloid z 2, y 0, and y 4.
(1 point) Find the volume of the region enclosed by the cone z-V2 + y? and the sphere2y222 1. Volume- (1 point) Find the volume of the region enclosed by the cone z-V2 + y? and the sphere2y222 1. Volume-