Triple Integrals and Volume in Spherical Coordinates

The radius of the sphere

The angle from the positive x-axis in the XY plane

The angle from the positive z-axis to the point

The distance from the origin to the point

dV = dx dy dz

dV = rho^2 cos(phi) dRho dPhi dTheta

dV = rho^2 sin(phi) dRho dPhi dTheta

dV = r dr dTheta dz

dTheta dPhi dRho

dRho dPhi dTheta

dPhi dTheta dRho

dRho dTheta dPhi

From 0 to 1

From 1 to 2

From 0 to 2

From 1 to 3

14 pi

28 pi

28/3 pi

14/3 pi

rho = 3 sin(phi)

phi = pi/2

phi = pi/3

rho = 6 cos(phi)

U = sin(phi)

U = cos(phi)

U = tan(phi)

U = rho

9/4 pi

18/4 pi

18 pi

9 pi

They simplify the integration process

They are easier to visualize

They require fewer calculations

They are more accurate

Exploring rectangular coordinates

Learning about spherical coordinates and their applications in volume calculation

Studying the history of coordinate systems

Understanding cylindrical coordinates