The four cases below all show a ball with a charge of −3q at the top right corner of a square. Then there is either one, two, or three additional charged balls, each ball located at a different corner of the square.
(b) In Case D, calculate the magnitude of the net electric field at the center of the square.
(c) In Case A, calculate the magnitude of the net electric field at the bottom left corner of the square.
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The four cases below all show a ball with a charge of −3q at the top...
The four cases below all show a ball with a charge of -3q at the top right corner of a square. Then there is either one, two, or three additional charged balls, each ball located at a different corner of the square. For parts (b) and (c), use q = 3.10 x 10-6 C, and L = 20.0 cm, as well as k-9.00 x 109 N·m2/C2. -3q -24 -24 (a) Rank the cases based on the magnitude of the net...
The four cases below all show a ball with a charge of-3q at the top right corner of a square. Then there is either one, two, or three additional charged balls, each ball located at a different corner of the square. For parts (b) and (c), use q-4.50 × 10-6 C, and L-40.0 cm, as well as k-9.00 x 109 N·m2/C2. -3q -3q -2q tq -2q tg (a) Rank the cases based on the magnitude of the net electrostatic force...
need help with all 3 parts of this question thanks! The four cases below all show a ball with a charge of -3q at the top right corner of a square. Then there is either one, two, or three additional charged balls, each ball located at a different corner of the square. Note that the electric potential is defined to be zero an infinite distance from the charges. For parts (b) and (c), use q-3.50 x 10-6 c, and L-40.0...
Please show work for all parts of the question. Thanks! The four cases below all show a ball with a charge of-3q at the top right corner of a square. Then there is either one, two, or three additional charged balls, each ball located at a different corner of the square. For parts (b) and (c), use q = 5.90 × 10-6 C, and L = 20.0 cm, as well as k = 9.00 x 109 N·m2/C2. 2q (a) Rank...
use q-7.20 x 10-5 C and The four c ses below all show ball with c ange of L = 60.0 cm, as well as k = 9.00 x 109 N·m2/C2 3 at the top ght corner f a square. Then there is either one, two or t ee additional charged balls, each ball located at a different corner o the square. For parts b and c (a) Rank Lhe cases based on the magnitude of he net electrostatic force...
Nine different charged balls, which we treat as point charges, are arranged in a highly symmetric pattern around a square. Note that the value of Q is 7.00 x 10-6 C, and L = 60.0 cm. +30 to 30 2L 20 so 50 21 (a) What is the agitude of the net force experienced by the ball with the +Q charge at the center of the square, due to the other 8 charged balls? For the rest of this problem,...
Looking for the answers to D, E & F please. Thanks Nine different charged balls, which we treat as point charges, are arranged in a highly symmetric pattern around a square. Note that the value of Q is 3.00 x 10-6 c, and L-30.0 cm -50 20 50 +30 -30 2L -50 +20 50 2L (a) What is the magnitude of the net force experienced by the ball with the Qcharge at the center of the square, due to the...
Nine different charged balls, which we treat as point charges, are arranged in a highly symmetric pattern around a square. Note that the value of Q is 3.00 × 10-6 C, and -30.0 cm 5Q 20 50 30 2L +20 50 -50 2L (a) What is the magnitude of the net force experienced by the ball with the +Q charge at the center of the square, due to the other 8 charged balls? For the rest of this problem, we...
Nine different charged balls, which we treat as point charges, are arranged in a highly symmetric pattern around a square. Note that the value of Q is 6.00 x 10-6 C, and L = 60.0 cm. 2050 2L 50 50 2L (a) What is the magnitude of the net force experienced by the ball with the + charge at the center of the square, due to the other 8 charged balls? For the rest of this problem, we will consider...
2) 4 charges are fixed to the corners of a square of side 0.53 cm. Charge 1 of -1°C is fixed to the top left corner. Charge 2 of -2°C is fixed to the top right corner, charge 3 of 3°C is fixed to the bottom left corner, and charge 4 of -4°C is fixed to | the bottom right corner. a) Find the magnitude and direction of the electric field at the center of the square. b) Find the...