By direct calculation (using intergation), determine the value of the electric field at any distance above...

Using guass' law, find the electric field of a flat, thin,infinite nonconducting sheet with uniform positive...

Using guass' law, find the electric field of a flat, thin,infinite nonconducting sheet with uniform positive surface charge density σ. Now bring this sheet near another identical shet with opposite surface charge density. Find the field between the two plates. Draw any relevant diagrams

The surface of a circular disk is charged uniformly. The magnitude of the electric field produced...

The surface of a circular disk is charged uniformly. The magnitude of the electric field produced by the disk on the surface is measured 3.00×105 N/C at its center. a.) Find the surface charge density of the disk. b.) At the point on the central axis perpendicular to the disk, 10.0 cm away from the center of the disk, the magnitude of the electric field is measured 1.00×105 N/C. Estimate the total charge of the disk. c.) Find the magnitude...

You are working in a manufacturing plant. In one particular machine, electric charges are suspended above...

You are working in a manufacturing plant. In one particular machine, electric charges are suspended above a uniformly charged disk of radius R. The disks become corroded rapidly and must be replaced daily. Your supervisor comes to you one day and tells you that he wants to replace the disks with much cheaper washers of radius R with a concentric hole of radius R/3. He asks you to determine by what factor the charge on the disk must be increased...

You are working in a manufacturing plant. In one particular machine, electric charges are suspended above...

You are working in a manufacturing plant. In one particular machine, electric charges are suspended above a uniformly charged disk of radius R. The disks become corroded rapidly and must be replaced daily. Your supervisor comes to you one day and tells you that he wants to replace the disks with much cheaper washers of radius R with a concentric hole of radius R/2 . He asks you to determine by what factor the charge on the disk must be...

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...

Finding the electric field using Gauss’s law may seem to be a hopeless task. After all,...

Finding the electric field using Gauss’s law may seem to be a hopeless task. After all, while the electric field does appear in the equation, it is only the normal component that emerges from the dot product, and it is only the integral of that normal component over the entire surface that is proportional to the enclosed charge. (ii) Do realistic situations exist in which it is possible to dig the electric field out of its interior position in Gauss’s...

Use Ampere’s Law to determine the magnetic field as a function of r (distance from the...

Use Ampere’s Law to determine the magnetic field as a function of r (distance from the symmetry axis) both inside and outside an infinitely long cylinder of radius R, carrying a current Iothat is(show all relevant steps and any symmetry arguments in part a, then you don’t have to repeat them in part b): a) uniformly distributed over the surface of the cylinder (i.e., at r = R) b) uniformly distributed throughout the cylinder

QUESTION 5 Determine which of the following statements is true about electric field lines in the...

QUESTION 5 Determine which of the following statements is true about electric field lines in the vicinity of two point charges of equal magnitude and opposite sign a. they are small according to the magnitude of the loads decrease b. does not depend on the magnitude of the loads c. indicate the relative magnitude of the electric field d. indicates the direction of the electric field e. is larger as the magnitude of the loads increases QUESTION 6 For a...

A rod of length 2l lies on the x-axis from x = −l to x =...

A rod of length 2l lies on the x-axis from x = −l to x = +l. The left half of the rod carries uniform negative charge density −λ while the right half carries a uniform positive charge density +λ. (a) What is the net charge of each half of the rod? What is the total charge of the entire rod? (b) Determine an exact expression for the magnitude of the electric field at an arbitrary point along the x-axis...

10. A spherical conductor of radius R = 1.5cm carries the charge of 45μ, (a) What...

10. A spherical conductor of radius R = 1.5cm carries the charge of 45μ, (a) What is the charge density (ρ) of the sphere? (b) Calculate the electric field at a point r = 0.5cm from the center of the sphere. (c) What is the electric field on the surface of the sphere? 11. Two capacitors C1 and C2 are in series with a voltage V across the series combination. Show that the voltages V1 and V2 across C1 and...