Two identical positive charges are placed near each other. At the point half way between the...

Identical positive point charges q = 9.18 μC are fixed, one at the origin, and the...

Identical positive point charges q = 9.18 μC are fixed, one at the origin, and the other at (8.52 cm,0). Half-way between the charges, the electric field is zero. Now, suppose charge begins leaking off the charge at the origin at a constant rate: = -7.85 pC/s. Find  , the rate at which the electric field at the midpoint is changing, in N/C/s. The sign of your answer will give the direction in which the electric field is changing.

Problem 1 Two charges are placed in an electric field a distance r from each other....

Problem 1 Two charges are placed in an electric field a distance r from each other. Charge q1 is positive while charge q2 is negative. Select all possible changes that will double the electric force between the two charges: (a) change the sign of q2 (b) half the magnitude of q1 and half of r (c) double the magnitude of q2 and take half of r (d) take half of r (e) double the magnitude of one of the charges...

1. Two charges are placed between the plates of a parallel plate capacitor. One charge is...

1. Two charges are placed between the plates of a parallel plate capacitor. One charge is +q1 and the other is q2 = +4.66mC (microC). The charge per unit area on each plate has a magnitude of sigma = 1.27×10-4C/m2. The force on q1 due to q2 equals the force on q1 due to the electric field of the parallel plate capacitor. What is the distance r between the two charges? 2. Two identical small insulating balls are suspended by...

Two negative and two positive point charges (magnitude Q = 3.51 mC ) are placed on...

Two negative and two positive point charges (magnitude Q = 3.51 mC ) are placed on opposite corners of a square as shown in the figure (a = 0.170 m ) a.) Determine the magnitude of the force on each charge. F1,F2,F3,F4 b.)Determine the direction of the force on each charge.

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.

Two point charges, one of -1.5 μC and the other of +3.7 μC, are placed at...

Two point charges, one of -1.5 μC and the other of +3.7 μC, are placed at the points (-2.5 m, -1.5 m) and (1.2 m, 0), respectively. (a) Find the electric potential at the origin. (b) There is one point along the radial line connecting the two charges where the electric potential is zero. Find this point (x- and y-coordinates). **Plase guide me through**

1. Consider two positive point charges on the x-axis of equal charge, (7/3) x 10-9 C....

1. Consider two positive point charges on the x-axis of equal charge, (7/3) x 10-9 C. One charge is placed at x = -3.00 m and the other at x = 3.00 m. What is the electric potential at the midpoint between the charges, x = 0 m? 2. Consider two positive point charges on the x-axis of equal charge, (7/3) x 10-9 C. One charge is placed at x = -3.00 m and the other at x = 3.00...

4. Six identical positive charges, q=10-13 C are placed, one at each vertex of a regular...

4. Six identical positive charges, q=10-13 C are placed, one at each vertex of a regular hexagon in the x-y plane centered at the origin. Let the charges be numbered with the index j from 1 to 6. The position of the j-th charge is xj=a cos(j π/3), yj=a sin(j π/3) where a=3 mm and j=1,2,…,6. Calculate the magnitude of the electric field created by the system of five charges at the location of the sixth charge (j=6).

The drawing shows two point charges on the x axis. No other charges are nearby. Given...

The drawing shows two point charges on the x axis. No other charges are nearby. Given that the net electric field E at location P, due to both charges, is 0 N/C, is the sign of the charge q2 positive or negative? Explain. There are no forces involved in the explanation, so using words like "attract" and "repel" is an indication that you're headed the wrong way. Also, there are no charges at location P. q1= +5nC

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..