The amount of work needed to bring together four identical point charges of 31.2 uC to...

Identical point charges of +1.2 µC are fixed to three of the four corners of a...

Identical point charges of +1.2 µC are fixed to three of the four corners of a square. What is the magnitude |q| of the negative point charge that must be fixed to the fourth corner, so that the charge at the diagonally opposite corner experiences a net force of zero? |q| = Number _______ Units _____

Four equal positive point charges, each of charge 8.7?C , are at the corners of a...

Four equal positive point charges, each of charge 8.7?C , are at the corners of a square of side 9.2 cm. What charge should be placed at the center of the square so that all charges are at equilibrium?

Four equal +6.00-μC point charges are placed at the corners of a square 2.00 m on...

Four equal +6.00-μC point charges are placed at the corners of a square 2.00 m on each side. (k = 1/4πε0 = 8.99 × 109 N ∙ m2/C2). Show your work. a) What is the electric potential (relative to infinity) due to these charges at the center of this square? b) What is the magnitude of the electric field due to these charges at the center of the square? Please show work and a pic for reference THNKS

Four point charges with magnitude 5.0 microcoulumbs are placed at the corners of a square that...

Four point charges with magnitude 5.0 microcoulumbs are placed at the corners of a square that is 30.0 cm on a side. Two charges, diagonally opposite each other, are positive, and the other two are negative. What are the magnitude and the direction of the force on one of the charges?

Three point charges q1=1 μC , q2=2 μC and q3=-3 μC are located at three corners...

Three point charges q1=1 μC , q2=2 μC and q3=-3 μC are located at three corners of a square of side a=2 cm . Charge q3 is located diagonally opposed to the empty corner of the square. Calculate the electric potential created by the three charges at the empty corner of the square. Calculate the work done by the electric field of the three charges when a fourth charge q4=-4 μC moves from the center of the square to the...

Point charges q1=+2.00μC and q2=−2.00μC are placed at adjacent corners of a square for which the...

Point charges q1=+2.00μC and q2=−2.00μC are placed at adjacent corners of a square for which the length of each side is 3.50 cm . Point a is at the center of the square, and point b is at the empty corner closest to q2. Take the electric potential to be zero at a distance far from both charges. A point charge q3 = -5.00 μC moves from point a to point b. How much work is done on q3 by...

Four particles each have a positive charge of 6.00 x 10-16 C. The charges are arranged...

Four particles each have a positive charge of 6.00 x 10-16 C. The charges are arranged on the four corners of a square that is 25.0 cm on a side. What is the net force experienced by the particle located on the bottom-left corner of the square?

Four point loads q1= -87.00 nC, q2 = 83.00 nC, q3 = 13.00 nC and q4...

Four point loads q1= -87.00 nC, q2 = 83.00 nC, q3 = 13.00 nC and q4 = -92.00 nC are in the corners of a square on the side 19.00 cm Find the work needed to bring a load q5= -57.00 nC from infinity to the center of the square.

Four point charges have the same magnitude of 2.0 × 10-12 C and are fixed to...

Four point charges have the same magnitude of 2.0 × 10-12 C and are fixed to the corners of a square that is 2.8 cm on a side. Three of the charges are positive and one is negative. Determine the magnitude of the net electric field that exists at the center of the square.

Four point charges have the same magnitude of 3.5 × 10-12 C and are fixed to...

Four point charges have the same magnitude of 3.5 × 10-12 C and are fixed to the corners of a square that is 8.7 cm on a side. Three of the charges are positive and one is negative. Determine the magnitude of the net electric field that exists at the center of the square.