Equal charge of 3.00x10-9C are situated at the three corners of a square of side 5.20m. Find the potential at the unoccupied corner.
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Equal charge of 3.00x10-9C are situated at the three corners of a square of side 5.20m. Find the potential at the unoccupied corner.
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Solved in 4 steps with 1 images
- (a) What is the potential difference (in V) between two points situated 14 cm and 28 cm from a 6.8 µC point charge? (Enter the magnitude.) V (b) To what location should the point at 28 cm be moved to increase this potential difference by a factor of two? O -18.7 cm from the 6.8 µC point charge 0.187 cm from the 6.8 µC point charge O infinity O 18.7 cm from the 6.8 µC point chargeHow far from a 5.50 C point charge will the potential be 200 V? m At what distance will it be 4.00 x 102 v?Consider an infinite plane with a uniform charge density of +7.3 x 10-12 C/m2. Let point A = (0, 0, 18.0 m) and point B = (0, 0, 4.5 m). Calculate the potential difference VB - VA, in V. Use ?0ε0 = 8.85 x 10-12 F/m. (Please answer to the fourth decimal place - i.e 14.3225)
- Two identical charges q = (1/9.0) x 10-9 C are shown in the figure below. Find the potential at P. (Take r = 2.28 m and 0 = 41°.)please include how you got the answerHow much work does the electric field do in moving a +7.2 µC charge from ground (0 V)to a point where the potential is +58V higher? Pay attention to magnitude and sign.
- Four 2 μC point charges are located at the corners of a square with sides of length 4m. Find the potential at the center of the square if three of the charges are positiveand one is negative.Consider an infinite plane with a uniform charge density of +6.8 x 10-12 C/m2. Let point A = (0, 0, 11.0 m) and point B = (0, 0, 6.4 m). Calculate the potential difference VB - VA, in V. Use ?0ε0 = 8.85 x 10-12 F/m. (Please answer to the fourth decimal place - i.e 14.3225)