The electric potential at a position located a distance of 18.3 mm from a positive point...

The electric potential at a position located a distance of 21.6 mm from a positive point...

The electric potential at a position located a distance of 21.6 mm from a positive point charge of 7.80×10-9C and 14.2 mm from a second point charge is 1.30 kV. Calculate the value of the second charge.

The electric potential at a position located a distance of 22.8 mm from a positive point...

The electric potential at a position located a distance of 22.8 mm from a positive point charge of 7.10×10-9C and 13.6 mm from a second point charge is 1.10 kV. Calculate the value of the second charge. The answer is NOT -2.56x10^-3C/ Please provide answer in proper units.

The electric potential at a position located a distance of 21.9 mm from a positive point...

The electric potential at a position located a distance of 21.9 mm from a positive point charge of 8.40×10^-9C and 10.3 mm from a second point charge is 1.26 kV. Calculate the value of the second charge. The potential at a position is the sum of the individual contributions to the potential by each of the 2 charges. The sign is important. Calculate the potential due to the first charge. The difference is due to the second charge.

The electric potential at a position located a distance of 21.9 mm from a positive point...

The electric potential at a position located a distance of 21.9 mm from a positive point charge of 6.70

The electric potential at a distance of 20.0 cm from a point charge is +1.0 kV...

The electric potential at a distance of 20.0 cm from a point charge is +1.0 kV (assuming V = 0 at infinity). Is the point charge positive or negative? At what distance is the potential +2.0 kV? How much work is required to move an electron from the +1.0 kV position to the +2.0 kV position?

5. (a) Point A is 1 mm away from a proton, and point B is 0.1...

5. (a) Point A is 1 mm away from a proton, and point B is 0.1 mm away from the same proton. (i) What is the electric potential at point A and point B due to the proton? (ii) What is the electric potential difference between point A and point B? (b) Sketch the electric equipotential lines for: Positive charge, Negative charge, Positive charge & negative charge, Positive charge & Negative charge on rectangular bar.

A proton is located at a distance of 0.050 m from a point charge of +8.30...

A proton is located at a distance of 0.050 m from a point charge of +8.30 ?C. The repulsive electric force moves the proton until it is at a distance of 0.15 m from the charge. Suppose that the electric potential energy lost by the system were carried off by a photon. What would be its wavelength? answer isn't 1.248e-4nm

A 9-μC positive point charge is located at the origin and a 10 μC positive point...

A 9-μC positive point charge is located at the origin and a 10 μC positive point charge is located at x = 0.00 m, y = 1.0 m. Find the coordinates of the point where the net electric field strength due to these charges is zero.

1. A -140 μC charge is located 60 mm from a point we will designate as...

1. A -140 μC charge is located 60 mm from a point we will designate as G and is 30mm from a point we will designate as H. a) What is the electrical potential difference between the two points (G and H)? b) If a charge of +15 μC is moved from the point G to the point H, what is the work done by the electric field? 2. Determine the resistance of a motor which operates at a power...

An electric field has an electric field strength 6000. N/C at a distance of 1.5 m....

An electric field has an electric field strength 6000. N/C at a distance of 1.5 m. What is the strength of the field at a distance of 6.0 m? 24. An alpha (α) particle is positioned in an electric field such that the gravitational force acting on it is equal to the electrostatic force.              (qα = 3.2 x 10–19 C and mα = 6.64 x 10–27 kg) a) What is the direction of the electric field at this point?...