Find the gravitational field g(r) anywhere inside of a uniform sphere of mass M and radius...

A uniform solid sphere of mass m1 and radius R1 is inside and concentric with a...

A uniform solid sphere of mass m1 and radius R1 is inside and concentric with a spherical shell of mass m2 and radius R2. Find the gravitational force exerted by spheres on a particle of mass m located at (1).r < R1 (2).R1 < r < R2 (3).r > R2

A uniform, solid, 1000.0 kg sphere has a radius of 5.00 m . Find the gravitational...

A uniform, solid, 1000.0 kg sphere has a radius of 5.00 m . Find the gravitational force this sphere exerts on a 2.40 kg point mass placed at the following distances from the center of the sphere: (a) 5.02 m , and (b) 2.70 m .

A uniform solid sphere of radius R = 3.6 km produces a gravitational acceleration of ag...

A uniform solid sphere of radius R = 3.6 km produces a gravitational acceleration of ag on its surface. At what distance from the sphere's center are there points (a) inside and (b) outside the sphere where the gravitational acceleration is ag/8?

Find the moment of inertia of a uniform hollow sphere of mass M, inner radius r,...

Find the moment of inertia of a uniform hollow sphere of mass M, inner radius r, and outer radius R > r, about an axis through the center of mass. Consider your answer for the cases r → 0 and r → R. Does the result reduce correctly? Explain.

.A uniform sphere of mass m radius r starts rolling down without slipping from the top...

.A uniform sphere of mass m radius r starts rolling down without slipping from the top of another larger sphere of radius R. Find the angular velocity of the sphere after it leaves the surface of the larger sphere.

Assume the earth is a uniform sphere of mass M and radius R. As strange as...

Assume the earth is a uniform sphere of mass M and radius R. As strange as it may sound, if one can dig a long tunnel from one side of the Earth straight through the center and exit the other end, any object falling into the tunnel will appear at the other end (i.e. the opposite side of the Earth) in just 2530 s (42.2 min). Call that time t. Let t be a function of G, M, and R,...

A sphere of radius R carries an uniform polarization P and an uniform magnetization M (not...

A sphere of radius R carries an uniform polarization P and an uniform magnetization M (not necessarily in the same direction). What are the magnetic fields (B) and electric fields (E) inside and outside the sphere.

Show, by integrating Coulomb’s Law, that the field anywhere inside of a spherical shell with uniform...

Show, by integrating Coulomb’s Law, that the field anywhere inside of a spherical shell with uniform surface-charge distribution, is zero. You are not allowed to make use of Gauss’ Theorem. Hint: start by showing that the field anywhere along an axis of the sphere is zero. Then, reason that any point within the sphere can be considered to be along a symmetry axis. Warning: be careful, once you do the integral, to make sure you take consistent signs for square...

Show, by integrating Coulomb’s Law, that the field anywhere inside of a spherical shell with uniform...

Show, by integrating Coulomb’s Law, that the field anywhere inside of a spherical shell with uniform surface-charge distribution, is zero. You are not allowed to make use of Gauss’ Theorem. Hint: start by showing that the field anywhere along an axis of the sphere is zero. Then, reason that any point within the sphere can be considered to be along a symmetry axis. Warning: be careful, once you do the integral, to make sure you take consistent signs for square...

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.