A uniform electric field is oriented in the +y direction. The magnitude of the electric field...

Question

Question

A uniform electric field is oriented in the

+y direction.

The magnitude of the electric field is 6500 N/C.

(b) Consider two of the equipotential surfaces; one with a potential of 13 V and the other with a potential of

−19 V.

What is the separation between these two surfaces?

Answer 1

Answer #1

The electric field and potential difference are related to each other as, Δν dW (13V)-(-19V) = E6500 V/m 4.9×10% m 4.9mm

Answer 2

Similar Homework Help Questions

suppose a uniform electric field of magnitude 150 n/c exists in a region of space. a)...

suppose a uniform electric field of magnitude 150 n/c exists in a region of space. a) how far apart are a pair of equipotential surfaces whose potentials differ by 6.0 V? b) draw a sketch of the electric field lines and the equipotential sufaces
A uniform electric field is shown below. Draw equipotential surfaces. In which direction does the voltage...

A uniform electric field is shown below. Draw equipotential surfaces. In which direction does the voltage decrease? If an electron is placed in the electric field at rest, draw the direction of the force. The electron moves from higher potential point to lower potential point or the other way around? If the potential difference between two locations of the electron is 5V, what is the change in potential energy of the electron. What is its speed at the end of...
A uniform electric field of magnitude 1,000 N/C points in the negative y-direction. Calculate the electric...

A uniform electric field of magnitude 1,000 N/C points in the negative y-direction. Calculate the electric potential difference V_B-V_A between the points A =(1cm, 2cm) and B = (3cm, 1cm). VB-VA = 10V VB-VA = 20V VB-VA = 30V VB-VA = -10V VB-VA = -20V VB-VA = -30V

1. A particle with a charge of +4.20 nC is in a uniform electric field E⃗ directed...

1. A particle with a charge of +4.20 nC is in a uniform electric field E⃗ directed to the negative x direction. It is released from rest, and after it has moved 6.00 cm , its kinetic energy is found to be 1.50×10−6 J . a. What work was done by the electric force? b. What was the change in electric potential over the distance that the charge moved? c. What is the magnitude of E? d. What was the change...
A uniform electric field of magnitude 214 V/m is directed in the positive y direction. A...

A uniform electric field of magnitude 214 V/m is directed in the positive y direction. A +14.3 μC charge moves from the origin to the point (x, y) = (21.3 cm, 50.9 cm). What was the change in the potential energy of this charge? Through what potential difference did the charge move?
A uniform electric field of magnitude 232 V/m is directed in the positive y direction. A...

A uniform electric field of magnitude 232 V/m is directed in the positive y direction. A -14.9 μC charge moves from the origin to the point (x, y) = (20.4 cm, 52.8 cm). What was the change in the potential energy of this charge? Through what potential difference did the charge move? Please explain and go step by step. Thank you.

In a uniform electric field, a pair of equipotential surfaces with potential difference 7.4 V are...

In a uniform electric field, a pair of equipotential surfaces with potential difference 7.4 V are separated by 8.5 mm. Find the magnitude of the field.
A uniform electric field of magnitude E = (180) V/m is pointed in the positive x-direction....

A uniform electric field of magnitude E = (180) V/m is pointed in the positive x-direction. A positive charge, Q = + (11) μC (micro-coulombs) moves from an origin (0, 0) to a point (x, y) = (13, 28) cm. Through what potential difference, in volts (V) does the charge move? Round your answer to two significant figures.
A uniform electric field of magnitude 364 N/C pointing in the positive x-direction acts on an...

A uniform electric field of magnitude 364 N/C pointing in the positive x-direction acts on an electron, which is initially at rest. The electron has moved 2.90 cm. (a) What is the work done by the field on the electron? J (b) What is the change in potential energy associated with the electron? J (c) What is the velocity of the electron? magnitude m/s direction ---Select--- +x -x +y -y

A uniform electric field of magnitude 280 V/m is directed in the positive x direction. A...

A uniform electric field of magnitude 280 V/m is directed in the positive x direction. A +15.0 µC charge moves from the origin to the point (x, y) = (20.0 cm, 50.0 cm). (a) What is the change in the potential energy of the charge field system? J (b) Through what potential difference does the charge move? V