What is the final velocity of two point charges moving away from each other?

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Homework Help Overview

The problem involves two identical point charges, each with a charge of +10μC, that are initially 5.5 cm apart and released from rest. The inquiry focuses on determining their final velocity when they are very far apart, given their mass of 1.0 mg.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • The original poster attempts to calculate the work done using the formula for electric potential energy and equate it to kinetic energy to find the final velocity. Some participants question the division of kinetic energy between the two charges and the reasoning behind it.

Discussion Status

Participants are exploring the distribution of kinetic energy between the two charges and discussing the implications of their identical masses on their velocities. Guidance has been offered regarding the equal division of potential energy, but there is still some uncertainty about the application of these concepts in different scenarios.

Contextual Notes

There is a discussion about the assumptions made regarding the charges' masses and how they affect the velocities, particularly when considering different charge values. The original poster's calculations and the resulting discrepancy with expected values are also noted.

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Homework Statement



2 identical +10uC point charges are initially spaced 5.5cm from each other. If they are released at the same instant from rest, how fast will they be moving when they are very far away from each other? Assume they have identical masses of 1.0mg.

Homework Equations



Maybe... W=Fd=qEd=qV=0.5mv^2

The Attempt at a Solution



initially,
W=qEd
=kqQ/r
=8.99*10^9*(10*10^-6)*(10*10^-6)/0.055
=16.3454

when they are very far apart,
W=0.5mv^2
=0.5*10^-6*v^2
=16.3454

v=(16.3454*2/10^-6)^0.5
=5717ms^-1

but the real answer is 4.1*10^3ms^-1...
 
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Since both charges are released, each carries W/2 kinetic energy at a large distance. Dividing your result by sqrt(2) gives the correct speed.
 
But how do you know that each charges only carries W/2 KE?
I don't quite understand that...
 
Your problem states that both charges are released simultaneously. They fly apart from each other, and since they are identical, Newton's laws enforce that they will move equally. The total potential energy W that you calculated therefore divides evenly between them.
 
Oh, I got it!
So if the charges are, for example +10uC and +20uC, then the velocity of charge (+10uC) would be v=(W/3*2/10^-6)^0.5, right?
 
No, the speeds differ only if the masses differ. The force each feels is the same regardless of charge because every action has an equal and opposite reaction (remember that one?) but the lighter particle will accelerate more (F=ma).
 

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