Find the surface area of ​​the R-radius sphere. (use integral)

Find the surface area of upper part of the sphere of radius a, x2 + y2...

Find the surface area of upper part of the sphere of radius a, x2 + y2 + z2 = a2, cut by the cone z = sqrt(x2 + y2). Show the integral that corresponds to the surface area using spherical coordinates.

Imagine an enormous sphere in space with a radius R (light years). Suppose the surface area...

Imagine an enormous sphere in space with a radius R (light years). Suppose the surface area could be measured with negligible error and was A (square light years). If the universe is spatially homogeneous and isotropic, find the value of k (the curvature constant).

Use a double integral to find the surface area of the part of the sphere x^2+y^2+z^2=a^2...

Use a double integral to find the surface area of the part of the sphere x^2+y^2+z^2=a^2 inside the circular cylinder x^2+y^2=b^2 wher 0<b<=a.

The potential at the surface of a sphere (radius R) is given by Vo=Kcos3D, Where D...

The potential at the surface of a sphere (radius R) is given by Vo=Kcos3D, Where D is theta,K is a constant. Find the potential inside and outside the sphere, as well as the surface charge density s(D) on the sphere.(Assume there is no charge inside or outside the sphere).

Find the circular cylinder of largest lateral area which can be inscribed in a sphere of...

Find the circular cylinder of largest lateral area which can be inscribed in a sphere of radius 4 feet. (Surface area of a cylinder of radius r and height h is 2πrh.)

Use a double integral to find the area inside the circle r = cos θ and...

Use a double integral to find the area inside the circle r = cos θ and outside the cardioid r = 1 − cos θ.

For scattering from a hard sphere with radius R: a) Find the correlation between the scattering...

For scattering from a hard sphere with radius R: a) Find the correlation between the scattering angle and impact parameter b. b) Obtain the differential cross-sectional area for this collision. c) When a bundle of N particles per unit surface passes through such a hard sphere, how many particles per unit time are scattered between 60 and 180 degrees. d) Calculate the total cross-sectional area. Discuss whether the result you found is meaningful.

For scattering from a hard sphere with radius R: a) Find the correlation between the scattering...

For scattering from a hard sphere with radius R: a) Find the correlation between the scattering angle and impact parameter b. b) Obtain the differential cross-sectional area for this collision. c) When a bundle of N particles per unit surface passes through such a hard sphere, how many particles per unit time are scattered between 60 and 180 degrees. d) Calculate the total cross-sectional area. Discuss whether the result you found is meaningful.

Use the Stokes theorem to write surface integral as line integral and calculate the area of...

Use the Stokes theorem to write surface integral as line integral and calculate the area of the surface enclosed between a parabola x = y^2 , and a circle x^2 + y^2 = 1.

To determine the surface area of the top part of the sphere ?^2 + ?^2+ ?^2...

To determine the surface area of the top part of the sphere ?^2 + ?^2+ ?^2 = 4 that is inside the cylinder ?^2 + ?^2 = 2?. first, setup the integral for this surface area in polar coordinates. second, Compute the integral. (be careful when you take the square root.)