Finding Mass from Coulomb's Law: A Guiding Hand

AI Thread Summary
Coulomb's law can be used to find the mass of charged particles by applying Newton's second law (F=ma) and the relationship between force, charge, and distance. Given two charged particles with known accelerations and the mass of one, the force can be calculated using F = k(q1*q2)/r^2. To find the charge of each particle, rearranging the equations allows for the calculation of charge based on known mass, distance, and acceleration. Additionally, Newton's third law indicates that the center of mass remains stationary, which aids in determining the mass of the second particle. This approach effectively combines principles of electrostatics and mechanics to solve the problem.
czaitz
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I'm working with Coulomb's law, and finding the force from known charges is easy. But I don't know how to find mass from Coulomb's law, and I guess I don't know an equation that will help.

Two equally charged particles, held 3.8 x 10-3 m apart, are released from rest. The initial acceleration of the first particle is observed to be 5.8 m/s2 and that of the second to be 10 m/s2. If the mass of the first particle is 8.1 x 10-7 kg, what are (a) the mass of the second particle and (b) the magnitude of the charge of each particle?

A nudge in the right direction would be helpful...I have the mass of one particle, and acceleration. And distance between two particles, so I can find r2. But I am stumped how mass comes into things. All I can think of is F=ma.
 
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czaitz said:
I'm working with Coulomb's law, and finding the force from known charges is easy. But I don't know how to find mass from Coulomb's law, and I guess I don't know an equation that will help.

Two equally charged particles, held 3.8 x 10-3 m apart, are released from rest. The initial acceleration of the first particle is observed to be 5.8 m/s2 and that of the second to be 10 m/s2. If the mass of the first particle is 8.1 x 10-7 kg, what are (a) the mass of the second particle and (b) the magnitude of the charge of each particle?

A nudge in the right direction would be helpful...I have the mass of one particle, and acceleration. And distance between two particles, so I can find r2. But I am stumped how mass comes into things. All I can think of is F=ma.
That is all you need. m = F/a where F = kq^2/r^2. If you know m, r and a you can find q. In order to find the mass of the other charge use Newton's third law - the centre of mass does not move.

AM
 
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Ah, yes, thank you so much!
 
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