Find the Electric Field originating from the disk of radius R and charge Q at the...

A total charge Q is uniformly distributed, with surface charge density, over a very thin disk...

A total charge Q is uniformly distributed, with surface charge density, over a very thin disk of radius R. The electric field at a distance d along the disk axis is given by E where n is a normal unit vector perpendicular to the disk. What is the best approximation for the electric field magnitude E at large distances from the disk?

Calculate the electric field a distance r from a line of electric charge infinite in extent...

Calculate the electric field a distance r from a line of electric charge infinite in extent with linear charge density λ.

An electric field E exerts a force F on an ion of charge q. At right...

An electric field E exerts a force F on an ion of charge q. At right angles to the electric field is a magnetic field B. a. Write an equation for the speed of the ion if the electric and magnetic forces are equal and opposite. b. Calculate the speed if the charge of the ion is 1.6E-19 C, the electric field is 6.0E6 N/C, and the magnetic field is 0.83 T. c. If the charge were twice as great,...

A nonconducting sphere has radius R = 2.54 cm and uniformly distributed charge q = +4.89...

A nonconducting sphere has radius R = 2.54 cm and uniformly distributed charge q = +4.89 fC. Take the electric potential at the sphere's center to be V0 = 0. What is V at radial distance from the center (a) r = 1.50 cm and (b) r = R? (Hint: See an expression for the electric field.)

A solid non-conducting sphere of radius R has a nonuniform charge    distribution of volume charge...

A solid non-conducting sphere of radius R has a nonuniform charge    distribution of volume charge density ρ = rρs/R, where ρs is a constant and    r is the distance from the centre of the sphere.    Show that:    (a) the total charge on the sphere is Q = π ρsR3 and    (b) the magnitude of the electric field inside the sphere is given by the    equation        E = (Q r2 / 4π ε0R4)

A thin dielectric disk with radius a has a total charge +Q distributed uniformly over its...

A thin dielectric disk with radius a has a total charge +Q distributed uniformly over its surface (Figure 1). It rotates n times per second about an axis perpendicular to the surface of the disk and passing through its center. Find the magnetic field at the center of the disk. Find the current of the rotating ring. Express your answer in terms of some or all of the variables Q, a, r, dr, n, and the constant π

A solid spherical nonconductor with a radius of 0.25m contains an interior charge density (Q/V) of...

A solid spherical nonconductor with a radius of 0.25m contains an interior charge density (Q/V) of 1.00*10-6 r3 C/m3 where r is the distance from the center of the sphere. a) Determine an expression for the total charge within a radius r less than or equal to 0.25m b) Determine an expression for the total charge contained within the nonconducting sphere c) Using Gauss' Law find an expression for the magnitude of the electric field within the sphere as a...

3) A thin ring made of uniformly charged insulating material has total charge Q and radius...

3) A thin ring made of uniformly charged insulating material has total charge Q and radius R. The ring is positioned along the x-y plane of a 3d coordinate system such that the center of the ring is at the origin of the coordinate system. (a) Determine an expression for the potential at an arbitrary location along the z-axis in terms of Q, R, and z. (b) Use this expression to determine an expression for the magnitude of the electric...

A solid copper sphere has a radius of R and holds a net charge of +Q....

A solid copper sphere has a radius of R and holds a net charge of +Q. You measure outward a distance of D from the center of the sphere. (assume D>R) You measure the magnitude of the electric field at distance D. You then measure out to a distance of 3D from the center of the sphere and measure again. How does the magnitude of the electric field at distance 3D compare to that of D?

A conducting sphere of radius R carries a net positive charge Q, uniformly distributed over the...

A conducting sphere of radius R carries a net positive charge Q, uniformly distributed over the surface of the sphere. Assuming that the electric potential is zero at an infinite distance, what is the electric potential at a distance r = R/4 from the center of the sphere? Select one: kQ/R zero kQ/4R 4kQ/R 16kQ/R