1. (15 points) The figure below shows portions of two very long rods that have a...
5. (100 points) A very thin plastic rod of length L is rubbed with cloth and becomes uniformly charged with a total positive charge Q. X A. Consider an arbitrary piece of rod of length dx located at a position x on the rod. Determine the electric field dE from this piece at observation location ".", a distance w above the right end of the rod as indicated in the diagram B. Integrate over the charge distribution to determine the...
Problem #3 1/2 ROZW Two insulated rods of length L = 1 m have a linear charge density of 1 = 1 nc/m. a- What is the electric field at P due to the vertical rod? b- What is the electric field at P due to the horizontal rod? C- What is the total electric field at P? Some charges are removed from the horizontal rod so the charge density is now - 2. d- What is the new total...
Question 2 The figure provided shows a section of a very long rod of radius a = 2.36 mm and linear charge density 3.53 nC/m. The rod is inside a coaxial cylindrical shell of radius b = 10.2 mm and linear charge density -7.15 nC/m. What is the magnitude of the electric field at a radial distance of 5.67 mm? 166.01 N/C
Question 2 The figure provided shows a section of a very long rod of radius a = 2.38 mm and linear charge density 339 nC/m. The rod is inside a coaxial cylindrical shell of radius b= 10.7 mm and linear charge density-7.94 nCm. What is the magnitude and direction of the electric field at a radial distance of 6.18 mm? Magnitude: Direction: O Outward Inward What is the magnitude and direction of the electric field at a radial distance of...
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.
Answer with detail please, I will like the post. 31. Each of two very long, straight, parallel rods carries a positive charge of coulomos per meter. The distance between the rods is d (Fig. 23.36). Find the electric field at a point equidis- tant from the rods, with a distance 2d from each rod. Draw a diagram showing the direction of the electric field. 20 2d + + d. FIGURE 23.36. Two parallel charged rods.
Two very long concentric cylindrical shells of radii r=0.05 m and R=0.1 m are located in air. The inner shell carries a uniformly distributed positive charge of linear density 2 nC/m. The outer shell carries a uniformly distributed negative charge of linear density -2 nC/m. Apply Gauss' Law to find the expression of the electric field at a point located at a distance x from the common axis, where r<x<R. Describe the chosen Gaussian surface.
Two 143-cm-long thin glass rods uniformly charged to +123 pC are placed side by side, 13 cm apart. What is the electric field strengths (in N/m) at a distance of 1.8 cm to the right of the rod on the left along the line connecting the midpoints of the two rods?
You have a long wire that is placed vertically in a plane. It has a linear charge density of 2.0 e-7 c/m. There is also a plastic rod with length l=8cm the rod is placed a distance 2cm from the wire. it is then charged to 16nC and has a uniform charge density. When you release the rod it will fly off. What is the electric force on the rod when it is initially 2cm from the wire? Please show...
A very long solid non-conducting cylinder of radius R1 is uniformly charged with a charge density p. It is surrounded by a concentric cylindrical tube of inner radius R2 and outer radius R3 as shown in the figure below, and it too carries a uniform charge density p. Determine the electric field as a function of the distance r from the center of the cylinders for R.