In the figure the four particles form a square of edge length a = 5.60 cm...

2. In the figure, four particles form a square with side a = 3 cm and...

2. In the figure, four particles form a square with side a = 3 cm and have charges q1 = +5 nC, q2 = - 10 nC, q3 = + 10 nC and q4 = - 5 nC. (InC = 10 ° C) Determine the magnitude and direction of the resultant force acting on q2. First you must make the corresponding force diagram.

In the figure, the particles have charges q1 = -q2 = 150 nC and q3 =...

In the figure, the particles have charges q1 = -q2 = 150 nC and q3 = -q4 = 91 nC, and distance a = 3.9 cm. What are the (a) x and (b) y components of the net electrostatic force on particle 3?

In the figure, the particles have charges q1 = -q2 = 440 nC and q3 =...

In the figure, the particles have charges q1 = -q2 = 440 nC and q3 = -q4 = 91 nC, and distance a = 7.0 cm. What are the (a) x and (b) y components of the net electrostatic force on particle 3? The figure shows four particles labeled 1, 2, 3, and 4 plotted in Quadrant 1 on an x y coordinate system. The particles are the vertices of a square with sides of length a. Particle 1 is...

The figure shows four particles, each of mass 20.0 g, that form a square with an...

The figure shows four particles, each of mass 20.0 g, that form a square with an edge length of d = 0.400 m. If d is reduced to 0.100 m, what is the change in the gravitational potential energy of the four-particle system?

The figure shows four particles, each of mass 30.0 g, that form a square with an...

The figure shows four particles, each of mass 30.0 g, that form a square with an edge length of d = 0.600 m. If d is reduced to 0.200 m, what is the change in the gravitational potential energy of the four-particle system?

Three identical charged particles sit at the corners of an equilateral triangle of side length 30...

Three identical charged particles sit at the corners of an equilateral triangle of side length 30 cm. Each particle has a charge of 8.5μc. The charges Q1 and Q2 are positive and Q3 is negative. A.) What are the magnitude and the direction of the net force on charge Q2 is: B.) What is the total electric potential energy of the charge combination is

n the figure, a square of edge length 16.0 cm is formed by four spheres of...

n the figure, a square of edge length 16.0 cm is formed by four spheres of masses m1 = 5.10 g, m2 = 2.90 g, m3 = 0.600 g, and m4 = 5.10 g. In unit-vector notation, what is the net gravitational force from them on a central sphere with mass m5 = 2.80 g?

Four charges are located as follows: Q1 = 5.00 nC at (-6,0)m, Q2 = 5.00 nC...

Four charges are located as follows: Q1 = 5.00 nC at (-6,0)m, Q2 = 5.00 nC at (6,0)m, Q3 = -4.00 nC at (-3,4)m, and Q4 = -4.00 nC at (3,4)m. Calculate... a. Electric field at the origin (magnitude and direction). b. Electric potential at the origin. c. Total potential energy of the system. Is this energetically favorable?

Four charges are located as follows: Q1 = 5.00 nC at (-6, 0) m, Q2 =...

Four charges are located as follows: Q1 = 5.00 nC at (-6, 0) m, Q2 = 5.00 nC at (6,0) m, Q3 = -4.00 nC at (-3,4) m, and Q4 = -4.00 nC at (3,4) m. Calculate: (a) Electric field at the origin (magnitude and direction); (b) Electric potential at the origin; (c) The total potential energy of the system. Is this an energetically favorable arrangement?

In the figure particles 1 and 2 are fixed in place on an x axis, at...

In the figure particles 1 and 2 are fixed in place on an x axis, at a separation of L = 6.50 cm. Their charges are q1 = +e and q2 = -64e. Particle 3 with charge q3 = +5e is to be placed on the line between particles 1 and 2, so that they produce a net electrostatic force F3 net on it. (a) At what coordinate should particle 3 be placed to minimize the magnitude of that force?...