Calculate the pressure, $P(r)$ inside a sphere of radius, $R_+$ with a constant density, $\rho$. Explain...

A solid sphere of radius R has a uniform volumetric charge density rho = −3C /...

A solid sphere of radius R has a uniform volumetric charge density rho = −3C / 2πR ^ 3. Calculate the electric field inside and outside the sphere.

Given a homogenous sphere with density rho. For the case where the radius R of the...

Given a homogenous sphere with density rho. For the case where the radius R of the sphere is exactly 2GM/c2 (meaning when the sphere is a black hole), express R in terms of rho. For a rho given in units of 1gcm-1, determine R in light seconds.

calculate buoyant force acting on a solid sphere with radius R, submerged into a liquid with...

calculate buoyant force acting on a solid sphere with radius R, submerged into a liquid with density rho

A sphere of radius R, centered at the origin, carries charge density p = 3kcosO/rR4 where...

A sphere of radius R, centered at the origin, carries charge density p = 3kcosO/rR4 where k is a constant. Determine the monopole and dipole moments for this distribution and use it to determine an approximate potential at any point beyond the sphere.

An insulating sphere of radius a has charge density p(r) = P0r^2, where P0 is a...

An insulating sphere of radius a has charge density p(r) = P0r^2, where P0 is a constant with appropriate units. The total charge on the sphere is -3q. Concentric with the insulating sphere is a conducting spherical shell with inner radius b > a and utter radius. The total charge on the shell is +2q. Determine a. the magnitude of the electric field at the following locations: (i) r < a, (ii) a < r < b, (iii) b <...

The electric poitential inside a charged metal sphere of radius R is? non-zero, but constant and...

The electric poitential inside a charged metal sphere of radius R is? non-zero, but constant and independent of R. proportional to 1/r, where r goes from 0 to R. proportional to 1/r, where r goes from 0 to R. zero.

A sphere of radius R carries a polarization , where is a constant. (note that there...

A sphere of radius R carries a polarization , where is a constant. (note that there is no free charge) What is the surface bound charge and the volume bound charge . Find the electric field inside and outside the sphere. (Hint: you can use the result of Q1 to calculate the electric field inside the sphere, that the total charge due to polarization vanishes. Outside the sphere, calculate the enclosed charge from the volume bound charge)

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).

Consider a very long cylindrical charge distribution of radius R with a uniform charge density rho....

Consider a very long cylindrical charge distribution of radius R with a uniform charge density rho. Calculate the magnitude of the electric field at distance r<R from the axis of this distribution. Derive using gauss law Show all work please

The electric poitential inside a charged metal sphere of radius R is

The electric poitential inside a charged metal sphere of radius R is