1. A cylinder with a length of L has a volume charge distribution given by ρ=ks...

Charge is distributed uniformly throughout the volume of an infinitely long cylinder of radius R =...

Charge is distributed uniformly throughout the volume of an infinitely long cylinder of radius R = 12 cm. The volume charge density ρ is 3.6 nC/m3. Find the magnitude of the electric field E (a) inside the cylinder, a distance r = 6.6 cm from the cylinder axis, and (b) outside the cylinder, a distance r = 24 cm from the cylinder axis.

A cylinder (bottom face at z= - L, top face at z = L, radius R,...

A cylinder (bottom face at z= - L, top face at z = L, radius R, centered along the z-axis) carries a volume charge distribution ?(?,?, ?) = ?o ( ?/ ? ) ???^2?. a. Calculate the monopole and dipole moments of this charge distribution b. Find the leading order terms for the potential an the electric field at the point (x = 25R, y = 25R, z = 25L)

Two idential charge rod of length "l" are have charge density "ρ". Side by side (i.e....

Two idential charge rod of length "l" are have charge density "ρ". Side by side (i.e. they are placed along y-direction) one rod is placed at x=l/2 and another x=-l/2. What is a good approximation of the electric field at a far aways distance x >> l?

An infinitely long solid insulating cylinder of radius a = 2 cm is positioned with its...

An infinitely long solid insulating cylinder of radius a = 2 cm is positioned with its symmetry axis along the z-axis as shown. The cylinder is uniformly charged with a charge density ρ = 27 μC/m3. Concentric with the cylinder is a cylindrical conducting shell of inner radius b = 14.8 cm, and outer radius c = 17.8 cm. The conducting shell has a linear charge density λ = -0.37μC/m. 1) What is Ey(R), the y-component of the electric field...

A thin rod of length l and uniform charge per unit length λ lies along the...

A thin rod of length l and uniform charge per unit length λ lies along the x axis as shown figure. (a) Show that the electric field at point P, a distance y from the rod, along the perpendicular bisector has no x component and is given by E=(2kλsinθ0)/y. (b) Using your result to (a), show that the field of a rod of infinite length is given by E=2kλ/y.

Q A thin arc is located in the xy-plane and contains a linear charge density of...

Q A thin arc is located in the xy-plane and contains a linear charge density of ρℓ = 4ε0 C/m. The arc dimensions are defined by ρ = 5 m and 0 ≤ φ ≤ π. Draw below the arc within its respective coordinate system. Also draw the position vector from a position along the arc to the point (0, 0, z) along the z-axis. Express mathematically the position vector from part (a). Use Coulomb’s law to find the electric...

6) A rod with length "l" is lied along x-axis. The charge density of the rod...

6) A rod with length "l" is lied along x-axis. The charge density of the rod is "a". Calculate the potential of the rod for a the point p on x-axis. 7) A rod with length "l" is lied along x-axis. The charge density of the rod is "a". Calculate the Electric field of the rod for a point p on x-axis.

a circular ring of charge has a constant charge density of l0 is located on the...

a circular ring of charge has a constant charge density of l0 is located on the x-y plane. Determine the vector electric field at a point P located on the z-axis. (Be sure to draw a diagram of the situation including the dq pieces of charge, r from the dq charge to point P and any other relevant quantities). Diagram                                                                                         (2 pt) Solution (Explain your solution, do not just write down answers.)                                                                                                               (6 pt)

A circular ring of charge has a constant charge density of l0 is located on the...

A circular ring of charge has a constant charge density of l0 is located on the x-y plane. Determine the vector electric field at a point P located on the z-axis. (Be sure to draw a diagram of the situation including the dq pieces of charge, r from the dq charge to point P and any other relevant quantities). Diagram                                                                                         (2 pt) Solution (Explain your solution, do not just write down answers.)                                                                                                              (6 pt)

An infinitely long cylinder (radius R, centered along the z-axis) carries a surface charge distribution σ(s...

An infinitely long cylinder (radius R, centered along the z-axis) carries a surface charge distribution σ(s = R,φ) = σ0 (4sinφ + 6cos2φ) . Using electricity and magnetism a. Find expressions for the potential and electric field at arbitrary points inside and outside the cylinder. b. Find the force on a test charge 3q at the point (x = 3R, y = R, z = 4R), assuming the test charge is too small to affect the potentials / fields found...