Find the minimum distance between 2 particles

AI Thread Summary
The discussion focuses on finding the minimum distance between two charged particles, where one particle is stationary and the other approaches it with an initial speed. The key points include the realization that the force between the particles varies as they get closer, making constant acceleration equations inapplicable. Participants emphasize using the conservation of energy principle to relate initial kinetic energy and potential energy to the potential energy at the minimum distance. The potential energy at this minimum distance is expressed as kQq/r_2, where r_2 is the sought minimum distance. The conversation highlights the importance of understanding the energy dynamics involved in the problem.
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Homework Statement


A point particle of mass m and charge q(>0) approaches to a point particle Q(>0) at a fixed position. When the distance between the two particles is L, the speed of the moving particle is v. The permittivity of the vacuum is denoted as Epsilon0. Find the minimum distance between the two particles?

Homework Equations

The Attempt at a Solution


What i get is, the Q will repel q at the shortest distance q will ever able to reach. Because of the Force between them. So
I used
Vfinal ^2 = Vinitial ^2 -2as

S is the question
a is force/m

Force is kQq/r^2

I know i am wrong.
I don't know what epsilon for..
Please help me..
 
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This is an energy problem. What is the initial potential energy and kinetic energy? And what will be the kinetic energy as the distance is minimized? Hint: What will happen after the distance reaches a minimum? They want you to use MKS units: ## F=\frac{Qq}{4 \pi \epsilon_o r^2} ##, with a related expression for the potential energy.
 
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Helly123 said:
I used
Vfinal ^2 = Vinitial ^2 -2as

S is the question
a is force/m

Force is kQq/r^2
You cannot use the eqn ##v^2=u^2+2as## unless the acceleration ##a## is constant. Here the particle experiences a varying force throughout its approach towards ##Q##.
Think of a way you can employ the conservation of energy principle, or find an expression for the velocity of ##q## at an instant as a function of ##r##, the distance between ##q## & ##Q##.
 
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PKM said:
You cannot use the eqn ##v^2=u^2+2as## unless the acceleration ##a## is constant. Here the particle experiences a varying force throughout its approach towards ##Q##.
Think of a way you can employ the conservation of energy principle, or find an expression for the velocity of ##q## at an instant as a function of ##r##, the distance between ##q## & ##Q##.
Yes.. the problem i get is non constant of acceleration. @Charles Link also pointed out important thing for me.
 
Ek at min distance is zero.
Ep = kQq/r_2
r_2 is the min distance
K = 1/4pi.epsilon0
Ek1 + Ep1 = Ep2 + 0
Solve for r2

Thanks all
 
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