An infinite uniform line of negative charge runs in the north-south direction. Consider a point that is located a distance, r= 10.0cm, from the infinite line. In which direction does the electric field point at this location?
Radially outward away from the infinite line of charge
Radially inward, toward the infinite line of charge
Parallel to the infinite line of charge, pointing south
Parallel to the infinite line of charge, pointing north
At 45 degrees to the infinite line of charge, pointing north-west
An infinite uniform line of negative charge runs in the north-south direction. Consider a point that...
1. An infinite line of uniform positive charge runs along the x axis and has a line charge density of λ=20.8 m nC . Consider the point (0 m, 2.00 m) which is located 2.00 meters above the infinite line. What is the magnitude of the electric field at this point? 2. An infinite horizontal plane of uniform negative charge sits at a height ofz=0. For a point at a height of z=−3m (i.e., 3 meters below the infinite plane),...
An infinite line of uniform positive charge runs along the x axis and has a line charge density of λ= 24.7mnC. Consider the point (0 m, 3.42 m) which is located 3.42 meters above the infinite line. What is the magnitude of the electric field at this point?
An infinite line of uniform positive charge runs along the x axis and has a line charge density of \lambda = 26.5 \frac{nC}{m}λ=26.5mnC. Consider the point (0 m, 2.67 m) which is located 2.67 meters above the infinite line. What is the magnitude of the electric field at this point?
Part B Constants Find the direction of the electric field in terms of a and the distance r from the axis of the tube for r<a A very long conducting tube (hollow cylinder) has inner radius a and outer radius b. It carries charge per unit length -a where a is a positive constant with units of C/m. A line of charge lies along the axis of the tube. The line of charge has charge per unit length ta parallel...
2 An infinite sheet of uniform surface charge density σ and an infinite sheet of uniform surface charge density parallel to each other and are separated a distance h as shown in the figure below: σ lie a) What is the electric field in regions A, B, and C? b) Suppose an electric dipole composed of a positive point charge +q and negative point charge -q both with mass m separated a distance d is placed in region B. If...
2. An infinite sheet of uniform surface charge density σ and an infinite sheet of uniform surface charge density-lie parallel to each other and are separated a distance h as shown in the figure below: +o a) What is the electric field in regions A, B, and C? b) Suppose an electric dipole composed of a positive point charge +q and negative point charge -q both with mass m separated a distance d is placed in region B. If the...
An infinite line charge of uniform linear charge density = -3.7 uC/m lies parallel to the y axis at x = -2 m. A point charge of 1.1 uC is located at x = 1.0 m, y = 2.0 m. Find the x component of the electric field at x = 2.0 m, y = 1.5 m.
An infinite line charge of uniform linear charge density = -1.7 uC/m lies parallel to the y axis at x = 0 m. A point charge of 4.1u C is located at x = 2.0 m, y = 3.0 m. Find the x component of the electric field at x = 3.0 m, y = 2.5 m
2. An infinite sheet of uniform surface charge density σ and an infinite sheet of uniform surface charge density parallel to each other and are separated a distance h as shown in the figure below: σ lie a) What is the electric field in regions A, B, and C? b) Suppose an electric dipole composed of a positive point charge +q and negative point charge -q both with mass m separated a distance d is placed in region B If...
INFINITE WIRE Consider an infinite line of charge with charge per unit length A. Calculate the electric field a distance z away from the wire. Namely z is the distance to the closest point on the wire. We will calculate this electric field in two different ways. 1.1 20 POINTS Calculate it using Coulomb's Law. 1.2 15 POINTS Calculate it using Gauss' Law.