Ball suspended in a horizontal electric field

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Homework Help Overview

The discussion revolves around a physics problem involving a table tennis ball suspended in a horizontal electric field. The ball has a specific mass and charge, and the problem asks for the force on the ball and the magnitude of the electric field affecting it.

Discussion Character

  • Exploratory, Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants discuss the formula for electric force and its relation to electric fields. There is an exploration of gravitational force and its significance in the context of the problem. Some participants express uncertainty about how to approach the problem and seek clarification on key concepts.

Discussion Status

The discussion is ongoing, with participants providing insights into the relevant formulas and concepts. There is a recognition of the need to compare gravitational and electric forces, and suggestions to visualize the problem with a diagram have been made. However, no consensus has been reached on a specific approach to solving the problem.

Contextual Notes

Participants note the urgency of the assignment deadline and express varying levels of confidence in their understanding of the physics involved. There is an acknowledgment of the complexity of balancing forces in this scenario.

cdriscoll
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A table tennis ball of mass 10g carries a charge of 0.04 micro Coulombs. It is suspended at the end of a rine threa 25cm long and placed in a horiztonal electric field. The effect of the field is to move the ball's centre 1.5cm to on side of a vertical line through the point of suspension.

What is the force on the tennis ball?

What is the magnitutde of the electric field?


I'm not even sure how to start this one so any help would be really appreciated!
 
Last edited:
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What is the formula for the electric force on a charge q due to an electric field E?
 
F= k q(1) q(2) / d^2 ?
 
cdriscoll said:
F= k q(1) q(2) / d^2 ?
That's the magnitude of the force one charge exerts on another.

The question asked by grzz was

"What is the formula for the electric force on a charge q due to an electric field E? "
 
E=F/q ?
 
cdriscoll said:
E=F/q ?
Good enough.

How much is the force of gravity, which is downward. ?
 
9.8m/s/s...?

I'm really sorry I've been taking ages to reply I am so busy, but my assignment is due tomorrow so I'm screwed anyways... thanks for trying sorry I am so bad at physics :( if you still want to try and explain though that would be good i just might be slow replying, school starts tomorrow
 
Now check whether the gravitational force is negligible compared with the electric force.
 
cdriscoll said:
9.8m/s/s...?

I'm really sorry I've been taking ages to reply I am so busy, but my assignment is due tomorrow so I'm screwed anyways... thanks for trying sorry I am so bad at physics :( if you still want to try and explain though that would be good i just might be slow replying, school starts tomorrow
That's the acceleration due to gravity, g. The force due to gravity is the weight = mg .

The force due to gravity (the weight) is downward. You are given the mass, so you can calculate this.

The electric field is horizontal, so is the electric force.

The tension in the fine thread must cancel both of these. The tension (also a force) is along the same direction as the thread.
 
  • #10
grzz said:
Now check whether the gravitational force is negligible compared with the electric force.

I am revising my one suggestion.

The weight CANNOT be negligible because the weight must balance the vertical component of the tension.
 
  • #11
A diagram IS ALWAYS HELPFUL.

Try finding the components of the weight in the verical and in the horizontal.
 

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