A charge of uniform linear density 2.40 nC/m is distributed along a long, thin, nonconducting rod. The rod is coaxial with a long conducting cylindrical shell (inner radius = 5.60 cm, outer radius = 9.20 cm). The net charge on the shell is zero. (a) What is the magnitude of the electric field at distance r = 14.8 cm from the axis of the shell? (b) What is the surface charge density on the inner surface of the shell? (c) What is the surface charge density on the outer surface of the shell?**Diagram Description:**The diagram illustrates a cross-section of a coaxial system. It shows:- A central nonconducting rod.- A conducting cylindrical shell surrounding the rod.- A Gaussian cylinder coaxial with the rod and shell, represented by a dashed line encircling the rod and shell.The shell is labeled to show both inner and outer radii, and the configuration suggests the exploration of electric fields and charge distributions in a cylindrical geometry.

since the rod is conducting equal and opposite charge of rod gets induced in the inner surface.

Answered: conducting cylindrical shell (inner…

Similar questions

A ring shaped conductor with a radius 3.00 cm has a uniform charge density of -120.0 nC/m and it lies on a horizontal table top. Find the magnitude and direction of the electric field it produces at a point 4.50 cm directly above its center. (p = 8.85 x 10-12 c²/Nm2, k = 9.00 x 109 Nm²/C²) 3.07 x 105 N/C, vertically downward 3.07 x 105 N/C, vertically upward 5.33 x 105 N/C, vertically downward 1.00 x 105 N/C, vertically upward 5.79 x 104 N/C, vertically downward 5.79 x 104 N/C, vertically upward 5.33 x 105 N/C, vertically upward 1.00 x 105 N/C, vertically downward
The electric field just above a large conducting surface of a machine has a magnitude 2.35x10$ N/C. What is the surface charge density (in µC/m?) on this conducting object?
The figure shows a cross section through a very large nonconducting slab of thickness d = 9.80 mm and uniform volume charge density p = 8.7 fC/m³. The origin of an x axis is at the slab's center. What is the magnitude of the slab's electric field at an x coordinate of (a) 0, (b)2.30 mm, (c)4.90 mm, and (d)25.4 mm? Hd/2 d (a) Number i Units (b) Number Units (c) Number i Units (d) Number Units > > > >
The figure gives the magnitude of the electric field inside and outside a sphere with a positive charge distributed uniformly throughout its volume. The scale of the vertical axis is set by Es = 4.3 × 107 N/C. What is the charge on the sphere?
A solid non-conducting sphere of radius R carries a uniform charge density. At a radial distance r 1 = 6R the electric field has a magnitude E 0. What is the magnitude of the electric field at a radial distance r 2 = R/6 as a multiple of E 0 ?
Geothermal energy uses the subsurface level of the earth to heat up water converting it to steam and then using the steam to turn a turbine attached to a generator to generate electric energy. If the geothermal energy conversion process is 46% efficient and there was 789 J of electricity produced, how much energy did the steam have before reaching the turbine?formula eff=output/input x100
A small conducting ball that carries a charge of 30.0 nC is located at the center of an electrically neutral hollow conducting sphere with an inner radius of 100 mm and an outer radius of 150 mm. What are the surface charge density (a) on the sphere's inner surface and (b) on its outer surface? (c) Determine the electric field as a function of r, the radial distance from the center of the sphere.
A thin, square, conducting plate 47.0 cm on a side lies in the xy plane. A total charge of 3.50 10-8 C is placed on the plate. You may assume the charge density is uniform. (a) Find the charge density on each face of the plate. C/m2(b) Find the electric field just above the plate. magnitude N/C direction (c) Find the electric field just below the plate. magnitude N/C direction
A charge of uniform linear density 2.00 nC/m is distributed along a long, thin, nonconducting rod. The rod is coaxial with a long conducting cylindrical shell (inner radius = 4.60 cm, outer radius = 10.6 cm). The net charge on the shell is zero. (a) What is the magnitude of the electric field at distance r = 15.2 cm from the axis of the shell? What is the surface charge density on the (b) inner and (c) outer surface of the shell?
There is a +5C charge at the center of a hollow sphere made of a perfect conductor. The hollow sphere has a net charge of +2C, an inner radius of 0.5 m and an outer radius of 0.75 m. Calculate the electric field as a function of distance from the +5C charge and the charge on each surface of the hollow sphere.
The electric field at a distance of 0.154 m from the surface of an insulating solid sphere of radius 0.385 m is 1970 N/C. Assuming that the charge on the sphere is uniformly distributed, a) what is the charge density within it? b) Calculate the electric field inside the sphere at a distance of 0.150 m from the center.
An infinite sheet charge of has a charge density of +44.81 pC/m2 and covers the entire x-y plane. A second infinite sheet of charge has a charge density of −53.2 pC/m2 covers the entire y-z plane. What is the magnitude of the electric field at any point not on either surface?

SEE MORE QUESTIONS