The drawing shows an equilateral triangle, each side of which has a length a = 1.6...

The drawing shows an equilateral triangle, each side of which has a length of 4.25 cm....

The drawing shows an equilateral triangle, each side of which has a length of 4.25 cm. Point charges are fixed to each corner, as shown. The 4.00 μC charge experiences a net force due to the charges qA and qB. This net force points vertically downward and has a magnitude of 461 N. Determine (a) charge qA, (b) charge qB.

In the figure three identical conducting spheres form an equilateral triangle of side length d =...

In the figure three identical conducting spheres form an equilateral triangle of side length d = 26.4 cm. The sphere radii are much smaller than d and the sphere charges are qA = -3.65 nC, qB = -4.20 nC, and qC = +9.17 nC. (a) What is the magnitude of the electrostatic force between spheres A and C? The following steps are taken: A and B are connected by a thin wire and then disconnected; B is grounded by the...

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

Consider three charges placed in a straight line. Charges A and B are separated by 1.00...

Consider three charges placed in a straight line. Charges A and B are separated by 1.00 m. The magnitude of the charges A and B are, qa= 20.0 μC; and qb= -5.0 0μC. The charge is qc has a small but unknown charge.   <--------------- (qa)--------------------- (qb) ----------> Show that the only location where qc can experience a zero net force is in the region to the right of both charges. Show that both the magnitude and sign of qc do...

Chapter 21, Problem 048 In the figure three identical conducting spheres form an equilateral triangle of...

Chapter 21, Problem 048 In the figure three identical conducting spheres form an equilateral triangle of side length d = 16.0 cm. The sphere radii are much smaller than d and the sphere charges are qA = -1.59 nC, qB = -5.78 nC, and qC = +9.30 nC. (a) What is the magnitude of the electrostatic force between spheres A and C? The following steps are taken: A and B are connected by a thin wire and then disconnected; B...

Two identical charges (+5.0 C each) are placed at the bottom corners of an equilateral triangle,...

Two identical charges (+5.0 C each) are placed at the bottom corners of an equilateral triangle, as shown below. If the length of one side is 3.0 m, find the magnitude of the net force on a -12 C placed at the at the empty top corner.

Three identical point charges are located at the corners of an equilateral triangle that is 0.3m...

Three identical point charges are located at the corners of an equilateral triangle that is 0.3m on each side. If each charge is +20μC, than the magnitude of the net force (in N) on one of the charges due to the other two is..

Three charged particles are placed at the corners of an equilateral triangle of side 1.20 m...

Three charged particles are placed at the corners of an equilateral triangle of side 1.20 m (see (Figure 1)). The charges are Q1 = 6.9 μC , Q2 = -9.3 μC , and Q3 = -4.9 μC . 1. Calculate the magnitude of the net force on particle 1 due to the other two. 2. Calculate the direction of the net force on particle 1 due to the other two. 3. Calculate the magnitude of the net force on particle...

(c16p20) Three equal charges are placed at the corners of an equilateral triangle 0.50 m on...

(c16p20) Three equal charges are placed at the corners of an equilateral triangle 0.50 m on a side. What are the magnitude of the force on each charge if the charges are each -5.5×10-9 C?

The figure below shows three small, charged beads, all lying along the horizontal axis. Bead A,...

The figure below shows three small, charged beads, all lying along the horizontal axis. Bead A, at left, has a 5.85 nC charge. Bead B has a 1.00 nC charge and is 3.00 cm to the right of A. Bead C has a −2.25 nC charge and is 2.00 cm to the right of B. Three charges lie along a horizontal line. A positive charge labeled qA is on the left. 3.00 cm to its right is a positive charge...