A rod of length L = 4.0 m with uniform charge of 7.9 nC/m is oriented along the y axis as shown in the diagram. What is the electric field vector at the location P whose coordinates are (0, ?4.5 m)? Express your answer in vector form. Do not enter units in your expression.

A rod of length L = 4.0 m with uniform charge of 7.9 nC/m is oriented along the y axis as shown in the diagram. What is...
A rod of length L 4.00 m with uniform charge of 5.50 nC/m is oriented along the y axis as shown in the diagram. P P, (a) What is the electric potential at the location P, whose coordinates are (0, -8.50 m)? (b) What is the electric potential at the location P2 whose coordinates are (8.50 m, 2.00 m)? V
A rod of length L = 4.00 m with uniform charge of 6.80 nC/m is oriented along the y axis as shown in the diagram. (a) What is the electric potential at the location P, whose coordinates are (0, -4.50 m)? V (b) What is the electric potential at the location P2 whose coordinates are (4.50 m, 2.00 m)?
A straight rod of length L = 20.2 cm, carries a uniform charge, ? = 2.85 x 10^-6 C/m. The rod is located along the y axis from y1= 0 to y2 = L. Find the expression or the electric field along the y axis, Ey, at point P. What is the magnitude of the field at yp = 55.0 cm?
A straight rod of length L = 21.60 cm, carries a uniform charge density, A = 1.95 Times 10^-6 C/m. The rod is located along the y-axis from y_1 = 0.00 to y_2 = L Find the expression for the electric field along the y-axis, E_y, at a point P, What is the magnitude of the electric field at y_0 = 50.00 cm?
A thin rod of length L with total charge Q lies along the x-axis and is centered at the origin. Please answer the following A. What is the electric field strength E at a point P located at position x? B. Does your expression have the expected behavior for x >> L? C. Evaluate E at x = 1.9 cm if L = 3.5 cm and Q = 17 nC.
(a) A thin plastic rod of length L carries a uniform linear charge density, λ-20 trCm, along the x-axis, with its left edge at the coordinates (-3,0) and its right edge at (5, 0) m. All distances are measured in meters. Use integral methods to find the x-and y-components of the electric field vector due to the uniformly-charged charged rod at the point, P. with coordinates (0, -4) m. 4, (o, 4 p2212sp2018 tl.doex
A positively charged rod of length L = 0.220 m with linear charge density = 2.71 mc/m lies along the x axis as in the figure. Find the electric field at the position Pa distance 0.335 m away from the origin (Express your answer in vector form.) N/C р Submit Answer
A positively charged rod of length L -0.220 m with linear charge density 1 - 2.07 mC/m lies along the x axis as in the figure. Find the electric field at the position Pa distance 0.395 m away from the origin. (Express your answer in vector form.) N/C Sub Arwwer
A thin rod of length L lies along the x-axis. It has a uniform linear charge distribution λ0. a) What is the value of the electric potential at a given point x located to the right of the rod? Take V=0 at infinity.b) What is the strength of the electric field at the point x?
A uniformly charged rod with total charge Q and length L is placed along the x-axis as shown to the right. (a) Calculate the electric field, E, at point P. Express your answers in terms of Q, L and ε0 or k.