A charged cork ball of mass 1.2g is suspended from a very light thread in a uniform electric field. As seen in the figure, when E = (3.2i + 2.3j)x105N/C, the ball is in equilibrium at e = 25°. determine the charge (in nC) on the cork ball with two decimals E y
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- A charged cork ball of mass 1.50 g is suspended on a light string in the presence of a uniform electric field as shown in the figure below. When É = (3.20 + 5.80 ĵ) × 105 N/C, the ball is in equilibrium at 0 = 37.0°. لو E + 9 i (a) Find the charge on the ball. 3.48*10e-8 Your response differs significantly from the correct answer. Rework your solution from the beginning and check each step carefully. C (b) Find the tension in the string. 0.0185 x Your response differs from the correct answer by more than 100%. NA small rubber sphere has a mass of 3.64 g and a charge of -18.6 µC. It levitates, motionless, when placed in a uniform electric field perpendicular to the ground. What is the magnitude of the electric field (in N/C)? N/C What is the direction of the electric field? O upward O downward O east westA small plastic ball of mass m = 1.50 g is suspended by a string of length L = 25.0 cm in a uniform electric field of magnitude E = 1.00 x 10³ N/C as shown in the figure. If the ball is in equilibrium when the string makes an angle = 17.5° angle with the vertical as indicated, what is the net charge on the ball? 10 E=1.00 x10³ N/C L m
- Two identical thin rods of length L are each charged with a positive charge q that is uniformly distributed on each rod. The rods are arranged parallel to each other along the x direction and are separated by a distance 2d, as shown in the figure below. Determine the electric field at point P, which is located a distance d from the right endpoint of each rod. Hint: You will eventually need the following integral: น 1 S (a²+u²)3/2 du = − + C √a²+u²A small, m = 7.50 g plastic ball is suspended by a 20.0 cm long string in a uniform electric field as shown in the figure below. If the ball is in equilibrium when the string makes a 15.0° angle with the vertical, what is the net charge on the ball? μc E 1.00 x 10N/C 15.0 20.0 cm ⓇThree point-like charges are placed as shown in the figure, a = 20.0 cm and b = 66.0 cm. The charge (q) is placed halfway on the (b) side. Find the magnitude of the electric field at the top left corner. Let q1 = −2.00 μC, q2= −3.90 μC,and q3= −3.70 μC
- The figure below shows a dipole. If the positive particle has a charge of 40.1 mC and the particles are 3.02 mm apart, what is the electric field at point A located 2.00 mm above the dipole's midpoint? (Express your answer in vector form.) N/C E = A d/2 y d/2 XThree charged particles are at the corners of an equilateral triangle as shown in the figure below. (Let q = 2.00 µC, and L = 0.400 m.) Calculate the electric field at the position of charge q due to the 7.00-µC and −4.00-µC charges.A small plastic ball of mass m = 2.50 g is suspended by a string of length L = 19.5 cm in a uniform electric field, as shown in the figure below. If the ball is in equilibrium when the string makes a 0 = 14.0° angle with the vertical as indicated, what is the net charge on the ball? μC E=1.00 × 10³ N/C L m