A wire of length 7 m carries uniformly distributed charge q = 39 μC. What is...

A straight wire 6.0 m long carries 28 μC distributed uniformly over its length. Part A:...

A straight wire 6.0 m long carries 28 μC distributed uniformly over its length. Part A: Find the electric field strength 12 cm from the wire axis, not near either end. Part B: Find the electric field strength 460 m from the wire.

A charge per unit length λ = +6.00 μC/m is uniformly distributed along the positive y-axis...

A charge per unit length λ = +6.00 μC/m is uniformly distributed along the positive y-axis from y = 0 to y = +a = +0.500 m. A charge per unit length λ = -6.00 μC/m, is uniformly distributed along the negative y-axis from y = 0 to y = –a = -0.500 m. What is the magnitude of the electric field at a point on the x-axis a distance x = 0.551 m from the origin?

A straight, nonconducting plastic wire 7.00 cm long carries a charge density of 125 nC/m distributed...

A straight, nonconducting plastic wire 7.00 cm long carries a charge density of 125 nC/m distributed uniformly along its length. It is lying on a horizontal tabletop. - Find the magnitude and direction of the electric field this wire produces at a point 4.50 cm directly above its midpoint. - Is the electric field directed upward or downward? - If the wire is now bent into a circle lying flat on the table, find the magnitude and direction of the...

A straight, nonconducting plastic wire 9.50 cm long carries a charge density of 100 nC/m distributed...

A straight, nonconducting plastic wire 9.50 cm long carries a charge density of 100 nC/m distributed uniformly along it's length. It is lying on a horizontal tabletop. A. Find the magnitude and direction of the electric field this wire produces at a point 4.50 cm directly above its midpoint. B. If the wire is now bent into a circle lying flat on the table, find the magnitude and direction of the electric field it produces at a point 4.50 cm...

A straight, nonconducting plastic wire 7.50cm long carries a charge density of 130nC/m distributed uniformly along...

A straight, nonconducting plastic wire 7.50cm long carries a charge density of 130nC/m distributed uniformly along its length. It is lying on a horizontal tabletop. Part C If the wire is now bent into a circle lying flat on the table, find the magnitude and direction of the electric field it produces at a point 5.00cm directly above its center.

A thin rod of length L=80 cm carries a total charge of +5 nC uniformly distributed...

A thin rod of length L=80 cm carries a total charge of +5 nC uniformly distributed over its left half and -5 nC over its right half. Find the electric field on the axis of the rod at distance r=400 cm from its rightmost end. What is the magnitude of the electric field at point P. (N/C)?

A spherical rubber balloon carries a total charge Q = 0.02 ?C uniformly distributed on its...

A spherical rubber balloon carries a total charge Q = 0.02 ?C uniformly distributed on its surface. At t = 0, the nonconducting balloon has radius r0 = 2.9 cm and the balloon is then slowly blown up so that r increases linearly to 2r0 in a time T = 16 s. a. Determine the magnitude |E| of the electric field at r = 4.35 cm at time t = 4 s. b. Determine the magnitude |E| of the electric...

A very thin wire of length L, having a total charge of Q -uniformly distributed- lies...

A very thin wire of length L, having a total charge of Q -uniformly distributed- lies along the x-axis, with it's right end at x=L/6 A: Draw a FBD B: Label all known and unknown variables. C: Set up an integral to determine the electric field at a point on the y-axis where y=10 cm. above the wire. Integral should be in terms of L,Q,H, the integration variable and physical constants. Do not evaluate the integral but instead explain your...

A length of copper wire carries a current of 14 A, uniformly distributed through its cross...

A length of copper wire carries a current of 14 A, uniformly distributed through its cross section. Calculate the energy density of (a) the magnetic field and (b) the electric field at the surface of the wire. The wire diameter is 2.6 mm, and its resistance per unit length is 2.7 Ω/km.

A total charge of 20.0 nC is distributed uniformly through an insulating sphere with a radius...

A total charge of 20.0 nC is distributed uniformly through an insulating sphere with a radius of 6.00 cm. The total electric flux (in N m2/C) through a concentric sphere with a radius of 3.00 cm is: K = 9 x 10+9 N.m2.C-2 , ε0 = 8.85 x 10-12 C2.N-1.m-2