Electron in equilibrium between two plates

AI Thread Summary
An electron placed between two charged parallel plates experiences equilibrium between the upward electrostatic force and the downward gravitational force, but it is not in electrostatic equilibrium due to the opposing forces from the plates. The electric field value between the plates is determined by the charge density, calculated as E = σ/ε0, where σ is the charge density and ε0 is the permittivity of free space. The direction of the gravitational field is downward, while the electric field points from the positive plate to the negative plate. The electron can be positioned anywhere between the plates, as long as the forces are balanced. Understanding the forces and their directions is crucial for analyzing the electron's behavior in this setup.
britt
Messages
32
Reaction score
0
1. An electron is placed between two charged parallel plates. The electron is in equilibrium between the electric force and the gravitational force.
a) Make a drawing of the experimental setup. Label the direction of the gravitational field, the placement of the plates, and indicate which plate is positively or negatively charged.
b) What is the value of the electric field? (Necessary constants can be found in the book)


How do I know where the electron is in equilibrium between the forces??:eek:
 
Physics news on Phys.org
Does it mean that there is electrostatic equilibrium?
 
Where the electron is in equilibrium is irrelevant to the question, you can figure it out, but you don't need to. First off draw a free body diagram, and equilibrium in force question almost always means the same thing.
 
  • Like
Likes 1 person
- - - - - - -
________________________

o

________________________
+ + + + + + +
 
That didn't show up quite right i had the electron in the dead center
 
In the set up the plates are like = i.e one on top of the other ,not || i.e placed side by side .

And,no the electron is not in electrostatic equilibrium .It cannot be .Positive plate attracts it,whereas the negative plate repels it .There is a net electrostatic force on the electron .But this force is balanced by the gravitational pull ,hence causing an overall equilibrium .
 
  • Like
Likes 1 person
i had them set up horizontal. Is the electron just in the middle of the plates?
 
It can be anywhere .It doesn't matter .You can place it where ever you like .What matters is that the two forces are equal and opposite .
 
The gravitational field would be going down correct?
 
  • #10
or does that just cancel out?
 
  • #11
Yes..The electrostatic force will be upwards whereas gravitational pull downwards.
 
  • Like
Likes 1 person
  • #12
Is the electric field value just 0 then? or do i add the electrons charge to 0
 
  • #13
No...The electric field between the plates of a parallel plate capacitor is σ/ε0 where σ is the charge density on the plates .
 
  • Like
Likes 1 person
  • #14
E= σ/2ε0
 
  • #15
britt said:
E= σ/2ε0

No...

E= σ/2ε0 is due to only one plate .The net electric field is σ/ε0 .
 
  • Like
Likes 1 person
  • #16
Check the sketch in post #4. If the negative plate is on top and the positive plate below the electron, where does the electric field on an electron point to? Is that right?
 

Similar threads

Polarities of capacitor plates in a complex circuit
Replies
14
Views
2K
Electric field between two parallel plates
2
Replies
58
Views
5K
Charge upon a parallel plate capacitor
Replies
18
Views
3K
Charge on inner/outer surfaces of two large parallel conducting plates
Replies
11
Views
2K
Confused about direction of electric field
Replies
7
Views
3K
Finding electric field between two conducting plates using Gauss' law
Replies
4
Views
2K
Two different dielectrics between parallel-plate capacitor
Replies
6
Views
2K
Find spring constant k using an electrical circuit
Replies
10
Views
2K
Why can we model spherical capacitor with two dielectrics as two capacitors in series?
Replies
4
Views
2K
Velocity of an Electron between Two Plate
Replies
3
Views
7K

Hot Threads

Recent Insights

Back
Top