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Three charges (q-1 = 4.0 nC, q-2-3.0 nC, q-3 =-5.0 nC) are placed at the corners...
Three charges (q1 = 4.0 nC, q2 = 3.0 nC, q3 = -5.0 nC) are placed at the corners of a right triangle as shown in the figure, where d = 6.67 cm. Calculate the electric potential energy of this configuration of three fixed charges. Give your answer in units of microjoules.
Three charges (q_1 = 4.0 nC, q_2 = 3.0 nC, q_3 = -5.0 nC) are placed at the corners of a right triangle as shown in the figure, where d = 8.34 cm. Calculate the electric potential energy of this configuration of three fixed charges.Give your answer in units of microjoules.
Three charges (q-1 = 4.0 nC, q_2 = 3.0 nC, q_3 = -5.0 nC) are placed at the corners of a right triangle as shown in the figure, where d = 7.75 cm. Calculate the electric potential energy of this configuration of three fixed charges.
Two point charges are placed as shown in the figure. 3.0 cm -------- 3.0 nC -4.0 nC (a) At one point to the left of the - 4.0 nC charge, the electric field is zero. How far to the left of the -4.0 nC charge is this point? (b) At one point to the left of the -4.0 nC charge, the electric potential is zero. How far to the left of the - 4.0 nC charge is this point? (c)...
Three point-like charges are placed at the corners of a rectangle as shown in the figure, a = 22.0 cm and b = 68.0 cm. Find the magnitude of the electric field at the empty corner. Let q 1 = +24.0 µC, q 2 = ?31.0 µC, q 3 = +35.0 µC. 5. Three point-like charges are placed at the corners of a rectangle as shown in the figure, a = 22.0 cm and b = 680 cm. Find the...
10. Three point-like charges are placed at the corners of an equilateral triangle as shown in the figure, a -36.0 cm. Find the magnitude of the electric force exerted on the charge q Let q 2.30 uC, q4.00 uC, and ,4.00 HC I N 41 42
4. Three point-like charges are placed at the corners of a rectangle as shown in the figure, a-34.0 cm and b 62.0 cm. Find the magnitude of the electric field at the center of the rectangle. Let q-q3 +16.0 uC and q2-26.0 uC x -6.71e5 N/C 42% 43 41
Three charges (56.3 nC, -86.7 nC, and 22.2 nC) are placed at the corners of a square with sides of length 38.3 cm. What is the value of the electric potential (in V) at the empty corner if the negative charge is in the opposite corner?
Two particles, with charges of 20 nC and -20 nC, are placed at the points with coordinates (0, 3 cm) and (0,-3 cm) as shown in the figure below. A 10 nC particle is located at the origin. Find the electric potential energy of the configuration of the three fixed charges. Note: for this situation of three (or more) charges, you need to add the potential energy of all combinations: PEtotal = PE12+ PE13 + PE23
We study the three point charges shown in the figure. They are held at the corners of an equilateral triangle with ℓ = 0.8 m. What is the electric potential energy (in J) of the system of three point charges? Use for the three charges q1 = +2Q, q2 = −3Q, and q3 = +Q, where Q = 107 nC. 13 41