How Does Charge Affect Force in an Electric Field?

AI Thread Summary
A charged object of -5.50 nC experiences a downward force of 24.0 nN in an electric field with a magnitude of 4.36 N/C directed upward. The force on a proton in the same field can be calculated using the formula F = |q|E, where |q| is the charge of the proton. The calculation yields a force of approximately 2.398E-8 N. The discussion emphasizes that the constant k is unnecessary for this calculation since the electric field strength is already known. Understanding the relationship between charge and force in an electric field is crucial for accurate calculations.
ahero4eternity
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A small object carrying a charge of -5.50 nC is acted upon by a downward force of 24.0 nN when placed at a certain point in an electric field.

What would be the magnitude and direction of the force acting on a proton placed at this same point in the electric field?

Magnitude & Direction of the Electric Field = 4.36 N/C upward


F = k (Q1Q2/r^2)
F = |q|E
k = 9E9

F = |q|E
= 5.5E-9 x 4.36
= 2.398E-8
 
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"Magnitude & Direction of the Electric Field = 4.36 N/C upward"I think this is correct so far, and then all you need to do is multiply the E by the charge of a proton.

There is no need for k.

I think u pretty much got it, maybe # error.
 
ahero4eternity said:
F = |q|E
= 5.5E-9 x 4.36
= 2.398E-8[/b]

If you have found the field yourself, then what do you think should put in place of q?
 

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