How Do Forces Between Protons and Electrons Compare in Physics?

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    Coulomb's law Law
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The electrostatic force between a proton and an electron is equal in magnitude but opposite in direction, as dictated by Newton's third law. The forces exerted by a proton on an electron and by an electron on a proton are identical due to the equality of their charges and the Coulomb constant. In contrast, gravitational forces are significantly weaker and also act equally in both directions, but they are not influenced by electric charge. The gravitational force is based on mass, while the electrostatic force is based on charge. Therefore, the comparison shows that both forces are equal and opposite, but the nature of the forces differs fundamentally.
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Homework Statement


How does …
(a) the electrostatic force exerted by a proton on an electron compare to the electrostatic force exerted by an electron on a proton?
(b) the gravitational force exerted by a proton on an electron compare to the gravitational force exerted by an electron on a proton?


Homework Equations


F = kq1q2 / r2


The Attempt at a Solution


Will the opposites attract when their is electrostatic force?
And repel when there is a gravitational force
 
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Newton's 3rd Law is all you need.

And repel when there is a gravitational force
Gravity acts on Mass, not electric charge.
 
How would the electrostatic force compare from a proton on a electron to vice- versa?
 
Does the electrostatic force stay the same because the charge of the proton and electron are the same as well as the coulomb constant and radius?
 
F=\frac{q_1q_2}{4\pi\epsilon_0r^2} is the magnitude of the force. Will that change?
q_1q_2=q_2q_1 since they are scalars. But you don't even need that equation to answer the question (your teacher might want you to compute it anyway, but it is unnecessary to answer the question). The answer comes from Newton's third law.
 
Does the electrostatic force stay the same because the charge of the proton and electron are the same as well as the coulomb constant and radius?

Yes. Those are the same. All that changes is which particle is being acted upon.
 

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