Four charges are placed at the corners of a 49.54 cm square. The four charges are...

4. Four equal charges of +5.0×10-7 C are placed on the corners of one face of...

4. Four equal charges of +5.0×10-7 C are placed on the corners of one face of a cube of edge length 7.0 cm. A charge of -5.0×10-7 C is placed at the center of the cube. What is the magnitude of the force on the charge at the center of the cube?

Consider a square which is 1.0 m on a side. Charges are placed at the corners...

Consider a square which is 1.0 m on a side. Charges are placed at the corners of the square as follows: +4.0 μC at (0, 0); +4.0 μC at (1, 1); +3.0 μC at (1, 0); -3.0 μC at (0, 1). What is the magnitude of the electric field at the square's center?

Four charges q1, q2, q3 and q4, are placed at the corners of a square. Charges...

Four charges q1, q2, q3 and q4, are placed at the corners of a square. Charges q1 and q4 are located on opposite corners and have equal charges. Both q2 and q3 have a charge of 1.0 C. If the force on q2 is zero, what is the charge on q1? A. -1.0 C B. -0.35 C C. -0.71 C D. -0.20 C

1.Four charges are located on the corners on of a square. The sides of the square...

1.Four charges are located on the corners on of a square. The sides of the square have a length of 0.05 m. The upper left corner has a charge of q, the upper right corner has a charge of – q, the lower left corner has a charge of 2q, and the lower right corner has a charge of -2q. If the magnitude of q is 10-7 C, find the magnitude of the force exerted on the charge at the...

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

Consider a square which is 1.0 m on a side. Charges are placed at the corners...

Consider a square which is 1.0 m on a side. Charges are placed at the corners of the square as follows: +4.0 μC at (0, 0); +4.0 μC at (1, 1); +3.0 μC at (1, 0); -3.0 μC at (0, 1). What is the magnitude of the electric force on the +4.0 μC at (1, 1)? 0.17 N 0.36 N 0.288 N 0.21 N

2a) Three electrons are placed on corners of a square with sides of length 14 cm....

2a) Three electrons are placed on corners of a square with sides of length 14 cm. Calculate the electric potential at the center of the square. b) Calculate the electric potential energy of two +7.1 x 10-6 C charges separated by 0.13 m. c) A 1.5 V battery contains 950 J of energy. Calculate how long it would take for this battery to completely drain if it was wired to a 9 ohm resistor. d) A -3.1 C charge moving...

Four point charges are at the corners of a square of side a as shown in...

Four point charges are at the corners of a square of side a as shown in the figure below. Determine the magnitude and direction of the resultant electric force on q, with ke, q, and a in symbolic form. (Let B = 4.0q and C = 2.0q. Assume that the +x-axis is to the right and the +y-axis is up along the page.)

Four point charges are at the corners of a square of side a as shown in...

Four point charges are at the corners of a square of side a as shown in the figure below. Determine the magnitude and direction of the resultant electric force on q, with ke, q, and a in symbolic form. (Let B = 4.0q and C = 5.5q. Assume that the +x-axis is to the right and the +y-axis is up along the page.)

We consider four positive charges Q at the corners of a square of side length a...

We consider four positive charges Q at the corners of a square of side length a and centered around (0,0), we will assume that the charges are very massive and do not move. An electron of mass m and charge -e is close to the center of the square, with coordinates (x,y). 1. What is the total energy of the electron? 2. Approximate the potential energy by a quadratic expression in x and y 3. Assuming the electron at t=0...