a ball p = 2 is cut by the z plane = 1. If D is...

Let D be the smaller cap cut from a solid ball of radius 2 units by...

Let D be the smaller cap cut from a solid ball of radius 2 units by a plane 1 unit from the center of the sphere. Express the volume of D as an interated triple integral in (a) spherical and (b) cylindrical coordinates. I was able to calculate the rectangular coordinates, however I do not understand how I should converse those to spherical and cylindrical coordinates.

Find the volume of the solid using triple integrals. The solid region Q cut from the...

Find the volume of the solid using triple integrals. The solid region Q cut from the sphere x^2+y^2+z^2=4 by the cylinder r=2sinϑ. Find and sketch the solid and the region of integration R. Setup the triple integral in Cartesian coordinates. Setup the triple integral in Spherical coordinates. Setup the triple integral in Cylindrical coordinates. Evaluate the iterated integral

Let D be the region enclosed by the cone z =x2 + y2 between the planes...

Let D be the region enclosed by the cone z =x2 + y2 between the planes z = 1 and z = 2. (a) Sketch the region D. (b) Set up a triple integral in spherical coordinates to find the volume of D. (c) Evaluate the integral from part (b)

The domain E of R^3 located inside the sphere x^2 + y^2 + z^2 = 12...

The domain E of R^3 located inside the sphere x^2 + y^2 + z^2 = 12 and above half-cone z = sqrroot(( x^2 + y^2) / 3) (a) Represent the domain E. (b) Calculate the volume of solid E with a triple integral in Cartesian coordinates. (c) Recalculate the volume of solid E using the cylindrical coordinates.

1- Set up the triple integral for the volume of the sphere Q=8 in rectangular coordinates....

1- Set up the triple integral for the volume of the sphere Q=8 in rectangular coordinates. 2- Find the volume of the indicated region. the solid cut from the first octant by the surface z= 64 - x^2 -y 3- Write an iterated triple integral in the order dz dy dx for the volume of the region in the first octant enclosed by the cylinder x^2+y^2=16 and the plane z=10

a)   Sketch the solid in the first octant bounded by: z = x^2 + y^2 and...

a)   Sketch the solid in the first octant bounded by: z = x^2 + y^2 and x^2 + y^2 = 1, b)   Given the volume density which is proportional to the distance from the xz-plane, set up integrals               for finding the mass of the solid using cylindrical coordinates, and spherical coordinates. c)   Evaluate one of these to find the mass.

when cylinder x^2+y^2=1, y^2+z^1=1 and x^2+z^1=1 intercept with each other, set up a triple integral to...

when cylinder x^2+y^2=1, y^2+z^1=1 and x^2+z^1=1 intercept with each other, set up a triple integral to calculate the volume of the interception. (Dont have to evaluate the integral, but just set it up.)

7. Given The triple integral E (x^2 + y^2 + z^2 ) dV where E is...

7. Given The triple integral E (x^2 + y^2 + z^2 ) dV where E is bounded above by the sphere x 2 + y 2 + z 2 = 9 and below by the cone z = √ x 2 + y 2 . i) Set up using spherical coordinates. ii) Evaluate the integral

Z = x + 1 plane upwards, xy plane from bottom and sides yan 2 +...

Z = x + 1 plane upwards, xy plane from bottom and sides yan 2 + ? 2⁄4 = 1 Calculate a limited volume with the elliptical cylinder.

Let S1: x^2+y^2=4 and S2: z=−√(x^2+y^2) be two surfaces in space. (a) [2] Graph these two...

Let S1: x^2+y^2=4 and S2: z=−√(x^2+y^2) be two surfaces in space. (a) [2] Graph these two surfaces. (b) [4] Find equations of S1 and S2 in spherical coordinate system . (c) [4] Find the intersection of S1 and S2 in this (spherical) coordinate system. (d) [5] SET UP but DO NOT EVALUATE the triple integral in spherical coordinate system to evaluate the volume which is above the xy -plane, outside of S1 and inside of S2 . (Bonus) [2] Can...