A point charge q = -3.0 nC moves horizontally to the right at 7.0 * 10...
A particle (q = 5.0 nc, m = 3.0 mu g) moves in a region where the magnetic field has components, B_x = 2.0 mT, B_y = 3.0 mT, and B_z =-4.0 mT. At an instant when the speed of the particle is 5.0 km/s and the direction of its velocity is 120 degree relative to the magnetic field, what is the magnitude of the acceleration of the particle?
4. (2 pts.) A charge q +5.0 nC sits 3.0 m to the left of the origin, in figure A. An electric electric field E is produced at the point P, which is 4.0 m above the origin, as shown. In figure B, a second charge also of strength q+5.0 nC is added, 3.0 m to the right of the origin, as shown. Figure A Figure B What is the strength (magnitude) of the total E field at point P...
10. A 3.0 nC charge is at the origin, a-3.0 nC charge is at the point (0, 1.0 cm), and a 3.0 nC charge is at the point (1.0 cm, o). What are the magnitude and direction of the electric field due to this configuration at the point (1.0 cm, 1.0 cm)? You may give your answer in ij notation.
1. A charge of 0.080C moves horizontally in a field of 0.1 T that is oriented at an angle of 45° with respect to charge direction. What speed must the charge have such that the force acting on it is 15N? 2. A charge of 0.50 C moves horizontally in a magnetic field of 0.8 T with a speed of 3.0 x 10 m/s. The force experienced by the charge is 7.0 N. What is the angle between the charge...
Expert Q&A Done Suppose Q1 = 7.0 nC and Q2 = 9.0 nC What is the strength of the electric field at the position indicated by the dot in Figure 1) Express your answer with the appropriate units. What is the direction of the electric field at the position indicated by the dot in (Figure 1)? Specify the direction as an angle measured counterclockwise from the positive x axis Suppose Q1 -7.0 nC and Q 90 nC (Figure 1) You...
Problem 4-A point charge q 9.0 nC is placed inside a spherical shell made of metal, of inner radius a 3.0 m and outer radius b -5.0 m, that is charged with qp-6.0 nC. Find the electric field (magnitude and direction) at a distance (a) r 1.5 m (b) r2 4.0 m from the center. (c) Find the charges on the inner and outer surfaces of the spherical shell
A particle (q = 5.0 nC, m = 3.0 mg) enters a region where the magnetic field has components Bx = 0, By = 0 and B. = 4.0 T. The initial velocity of the particle as it enters this region is given by Vx = 7.0 m/s, Vy = 6.0 m/s and V2 = 8.0 m/s. (a.) What is the magnitude of the magnetic force and the magnitude of the acceleration of the particle? (b.) What is the radius...
A particle (q= 5.0 nC, m = 3.0 mg) enters a region where the magnetic field has components By = 0, By = 0 and B, = 4.0 T. The initial velocity of the particle as it enters this region is given by Vx - 7.0 m/s, Vy = 6.0 m/s and vz = 8.0 m/s. (a.) What is the magnitude of the magnetic force and the magnitude of the acceleration of the particle (b.) What is the radius and...
A –3.0 nC charge (on the left) and a +3.0 nC charge (on the right) are separated by some horizontal distance. The point P is a distance 5.0 mm away from each charge. The line from the negative charge (on the left) to point P makes a +25º angle with with the horizontal line between the two known charges. What is the magnitude of the net electric field at point P? (Hint: Make sure you can draw a diagram of...
A positive charge having a magnitude of 5.0 nC is placed at the origin of coordinates. An electric field sensor is placed at position P, (3.0 m, 4.0 m). What is the magnitude of the r- vector from the source charge to point P? 5.0 m 1.0 m 3.0 m 4.0 m some other value 0 7.0 m