4. Two charged rods are arranged as shown in the figure. Each rod has a charge...
Problem 1 (30 points) Two uniformly charged rods with charge Q and length L lie along the z-axis as shown in the figure (rods have been fixed in their positions, so they cannot move). (a)(15pts.) Find the electric field created by the left rod at point I where = > L. (b)(15pts.) Find the electric force on the right rod that is applied by the left rod.
Two uniformly charged rods are positioned horizontally as shown. The top rod is positively charged and the bottom rod is negatively charged. The total electric field at the origin:
A uniformly charged rod of length Land total charge Q lies along the x axis as shown in Figure P23.6. (a) Find the components of the electric field at the point P on the y axis a dis- tance d from the origin. (b) What are the approximate values of the field components when d >> L? Explain why you would expect these results.
A uniformly charged rod of length L and total charge Q lies along the x axis as shown in in the figure below. (Use the following as necessary: Q, L, d, and ke.) (a) Find the components of the electric field at the point P on the y axis a distance d from the origin (b) What are the approximate values of the field components when d >> L?
Two uniformly charged rods are located and oriented as shown in Figure. The rods have charges Q and -Q correspondingly. Find the components of electric field at point A E_x =? and E_y =?
A very thin uniformly charged plastic rod with total charge radius r and placed in the second quadrant, with its center at the origin. An identical rod (except with charge + Q) continues the circle as shown in the figure, to form a half circle centered at the origin. Find the electric field vector E at the origin, writing it in component form. Can anyone answer this question? Will give thump up :) 3) A very thin uniformly charged plastic...
1. (15 points) The figure below shows portions of two very long rods that have a uniformly-distributed net charge. The top rod has a uniform negative linear charge density of -12 C/m, and the bottom rod has a uniform negative linear charge density of -4 /HC/m. At each of the points on the diagram, indicate the direction and relative magnitude of . the electric field due to the top rod, Er, . the electric field due to the bottom rod,...
2. In the figure to the right, a non-conducting, uniformly charged, straight rod has a charge of Q-8.40 nC and a length of L-12.0 cm. جانب a) Show that the electric potential due to the rod is given by: V = kain (+2+y where y is the vertical distance from the end of the rod, L is the length of the rod and is the rod's charge density. (9 pts) b) If a proton starts from rest at P1, find...
A uniformly charged insulating rod of length 11.0 cm is bent into the shape of a semicircle as shown in the figure below. The rod has a total charge of -7.50 C. (a) Find the magnitude of the electric field CIn N/C) at O, the center of the semicircle. (b) Find the direction of the electric field at O, the center of the semicircle. (c) What if? What would be the magnitude of the electric field (in N/C) at O if the top...
Two uniformly charges rods (each with a total charge Q 7.5 HC and length L. - 12.0 em) are arranged as shown below. Find the electric field at P if a -5.5 cm. s. .75