4. Evaluate the integral by changing to spherical coordinates. (15.8 #41-43) a2-x2-y2
Evaluate the integral below by changing to spherical coordinates. -y2 100 100 10 -10 -x2-y -y2 100 100- Evaluate the integral below by changing to spherical coordinates. -y2 100 100 10 -10 -x2-y -y2 100 100-
10. Evaluate the given integral by changing to polar coordinates. JJR x2 + y2" where R is the region that lies between the circles x2 + y2 = a2 and x2 + y2 = 62 with 0 <a<b.
(1 point) Evaluate the integral by changing to cylindrical coordinates. 2 ,2 (a2 +y2)32 dz dy dz 2L,2 (1 point) Evaluate the integral by changing to cylindrical coordinates. 2 ,2 (a2 +y2)32 dz dy dz 2L,2
Evaluate the integral by changing to cylindrical coordinates. 13 /9-x² 89-x² - y2 x2 + y2 dz dy dx Jo
5. In spherical coordinates evaluate the triple integral [ff (x2 + y2 +z?)2dV where D is the unit ball. (20 points)
4. (20 points) Use integration in spherical coordinates to evaluate the triple integral where E is the region determined by x2 +y2 + z's 2z. 4. (20 points) Use integration in spherical coordinates to evaluate the triple integral where E is the region determined by x2 +y2 + z's 2z.
Use spherical coordinates. Evaluate (4 − x2 − y2) dV, where H is the solid hemisphere x2 + y2 + z2 ≤ 16, z ≥ 0. H
1. (13 pts.) Use spherical coordinates to set up the triple integral for the solid that is constructed from a portion of a sphere, x2 +y2 +Z2-1 that lies above the cone φ = π/4 . Do NOT evaluate. 1. (13 pts.) Use spherical coordinates to set up the triple integral for the solid that is constructed from a portion of a sphere, x2 +y2 +Z2-1 that lies above the cone φ = π/4 . Do NOT evaluate.
Evaluate the following integral in spherical coordinates. SSS--(=y2 +22)3120v 3/2 dV; D is a ball of radius 5 D SSS - (x2 + y2 +22) >/?dv=E D (Type an exact answer, using a as needed.)
Evaluate the given integral by changing to polar coordinates. ∫∫R(4x − y) dA, where R is the region in the first quadrant enclosed by the circle x2 + y2 = 4 and the lines x = 0 and y = x.