Work required to move a charge through an electric field (3D)

GAtechie291 · Sep 21, 2011

Homework Statement

"This problem regards the work required to move a 6nC charge through an electric field given by

E =

Initial point is at (2,-2,3)

Total length the charge is being moved = 2µm

Unit path length vector: a_l = -6/7 * a_x + 3/7 * a_y + 2/7 * a_z

Homework Equations

W = -Q * integral(E dL, from init position --> final position)

The Attempt at a Solution

I'm having trouble setting up this integral because I'm not sure how to determine the final position given the initial position and the distance traveled. Or is that not necessary?

Spinnor · Sep 22, 2011

I think the charge is moving in a straight line in the direction given by the above,

"Unit path length vector: a_l = -6/7 * a_x + 3/7 * a_y + 2/7 * a_z"

You know the distance traveled and the starting point.

Good luck!

Work required to move a charge through an electric field (3D)

Homework Statement

Homework Equations

The Attempt at a Solution

1. What is the formula for calculating the work required to move a charge through an electric field?

2. How does the direction of the electric field affect the work required to move a charge?

3. How is the work required to move a charge through an electric field affected by the magnitude of the electric field?

4. Does the work required to move a charge through an electric field depend on the charge of the particle?

5. Can the work required to move a charge through an electric field be negative?

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