14. (10 points) Three charges of +0.1 C each is placed at the corners of an...
Three +0.18 C charges form an equilateral triangle 1.2 m on a side. Using energy supplied at the rate of 0.76 kW, how many days would be required to move one of the charges to the midpoint of the line joining the other two charges
Three points charges are placed in the corners of a equilateral triangle ABC with sides 2.0 m as shown in the figure. Find the electric field at the mid point (P) of side BC. (E is a vector, need magnitude and direction.) -5 HC -6 HC
Three equal charges of magnitude +6.00 μC are placed at the corners of an equilateral triangle of side 4.00 cm. What is the electric field potential energy of the system of these charges? 0 J 24.3 J 90.0 J 900 mJ 243 mJ (There is no figure with this question.)
Three charges are placed at the corners of an equilateral triangle, as shown in figure (18.43). The length of each side of the triangle is 1m. Determine the electric potential at the midpoint of each side.
Three identical point charges (q = 1.6 times 10^-19 C) are placed at each of three corners of a square of side L and cannot move. A) Draw the free body diagram for a charge of -3q placed at the center of the square labeling all the forces acting on the charge -3q B) Calculate the magnitude and direction of the force on the -3q charge Three identical point charges (q = 1.6 times 10^-19 C) are placed at each...
Three equal charges are placed at the corners of an equilateral triangle 0.50 m on a side. What are the magnitude of the force on each charge if the charges are each -2.3×10-9 C?
Three equal charges are placed at the corners of an equilateral triangle 0.50 m on a side. What are the magnitude of the force on each charge if the charges are each -3.3×10-9 C?
Three equal charges are placed at the corners of an equilateral triangle 0.50 m on a side. What are the magnitude of the force on each charge if the charges are each -3.9×10-9 C?
7. Three point-like charges are placed at the corners of a rectangle as shown in the figure, a = 30.0 cm and b = 66.0 cm. Find the minimum amount of work required by an external force to move the charge q to infinity. Let q = −2.30 µC, q = −3.20 µC, q = +5.10 µC. in J 8. Four point-like charges are placed as shown in the figure, three of them are at the corners and one at...
002 10.0 points Four point charges, each of magnitude 9.87 C, are placed at the corners of a square 36.7 c m on a side. If three of the charges are positive and one is negative, find the magnitude of the force experienced by the negative charge. The value of Coulomb's constant iS 8.98755 x 10 N m2/C2. Answer in units of N