Electric Fields Problem

[rhettfraser]

1. The problem statement, all variables and given/known data
An electron is accelerated from the filament in a vacuum tube towards a metal grid which is maintained at a potential of 180 Volts. It goes through one of the holes in the grid and continues towards a metal plate 1.2 cm away which is maintained at a potential of -10.0 Volts.

How close to the plate does the electron get?


2. Relevant equations

Im not sure, maybe something to do with Potential Difference

3. The attempt at a solution

I dont know where to start

[tiny-tim]

Hi rhettfraser! Welcome to PF! :smile:

Hint: work done = ∫ force"dot"distance = ∫ electric-field"dot"charge, and the electron will stop when the KE is zero. :wink:

[rhettfraser]

Hi rhettfraser! Welcome to PF! :smile:

Hint: work done = ∫ force"dot"distance = ∫ electric-field"dot"charge, and the electron will stop when the KE is zero. :wink:

thanks

[rhettfraser]

Hi rhettfraser! Welcome to PF! :smile:

Hint: work done = ∫ force"dot"distance = ∫ electric-field"dot"charge, and the electron will stop when the KE is zero. :wink:

but how do you find the force?

[tiny-tim]

uhh? you don't, you use ∫ electric-field"dot"charge :smile:

[rhettfraser]

uhh? you don't, you use ∫ electric-field"dot"charge :smile:

ok now ive worked out that the work done is 3.04x10-17
how should i work out that when KE is zero the electron will stop?
I know that W= Change in PE, is there anyway that W is related to KE?

[tiny-tim]

Conservation of energy … KE + PE = constant :smile:

(or work-energy theorem …KE + W = constant)