calc3 5. Use double integration in polar coordinates to bounded by zx4y +3 and 24 5. Use double integration in polar coordinates to bounded by zx4y +3 and 24
Use a double integral in polar
coordinates to find the area of the region bounded on the inside by
the circle of radius 5 and on the outside by the cardioid
r=5(1+cos(θ))r=5(1+cos(θ))
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
please anser 9,10,11
9. Reverse the order of integration in Jo edydr and then evae l integral. 10. Use polar coordinates to evaluate 12+y2 where R is the sector in the first quadrant bounded by y 0, y- z, and 11. Find the area of the surface on the cylinder y2 + z2-9 which is above the rectangle R-((,):0s 32, -3 S yS 3) 9. Reverse the order of integration in S e-dydz and then evaluate the integral 10. Use...
Use polar coordinates to find the centroid of the following constant-density plane region The region bounded by the cardioid r4+4cos0. Set up the double integral that gives the mass of the region using polar coordinates. Use increasing limits of integration. Assume a density of 1 dr d0 (Type exact answers.) Set up the double integral that gives My the plate's first moment about the y-axis using polar coordinates. Use increasing limits of integration. Assume a density of M,-J J O...
please answer both questions
bex Use a double integral in Polar Coordinates to find the area of the rectangular region bounded by x=0,x=1.-O.y-1, HTML Editore BIVA-AIXE 3 1 X X, SE Solve the following double integral using Polar Coordinates. x2 + y dydx HTML Editor
1. Use polar coordinates to evaluate the double integral dA z2 +y where R is the region in the first quadrant bounded by the graphs x = 0, y = 1, y=4, and y V3z.
1. Use polar coordinates to evaluate the double integral dA z2 +y where R is the region in the first quadrant bounded by the graphs x = 0, y = 1, y=4, and y V3z.
Using triple integration in cylindrical coordinates
3. Find the volume of the region bounded by the paraboloids z = 2x2 + y2 and 2 = 12 – x2 – 2y2.
COVIU-19 edition) A Saved 3 attempts left Check my work Use polar coordinates to evaluate the double integral. 16y dą, where R is bounded by r = 11 - cos(0)
(a) use polar Coordinates to evaluate cu Saty? dA, R is bounded by the Semicircle y = /2x - 7² and the line y=x.
Q#2 Sketch the region of integration and use polar coordinates to find the value of the integral : a Va2-x2 r?+y2 1+(x2+y232 dy dr. 0 -Na2-x2