Well, an electric force can be attractive or repulsive and it is the STRONGEST force in nature. And to feel this force, small changes might be involved.
So, the question is: The Electric Force between two charged objects depends on which of the following?
A) Their masses and their separation
B) Their speeds
C) their charge and their separation
D) their masses and their charge
Answer: C) Their charge and their separation.
Why? Because the force between electric charges depends on the distance between charges (the force decreases as the charges get farther apart) and it depends on the force the electric charges exert on each other. And negative charge and positive charge do attract but positive and positive charge don't attract and negative and negative don't attract.
It depends on the difference of the charges of the 2 objects and varies inversely with the square of the distance between the objects.
The electric force between two charged objects is influenced by the distance between them.
Electric Force is the force between charged objects.
electric force.
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No. It can exert a much weaker force on neutral objects, due to an induced separation of charges - that is, the charged object will cause a separation of charges in the uncharged object, thus creating an electric dipole.
The electric force between two charged objects is influenced by the distance between them.
Electric Force is the force between charged objects.
The electrostatic force between two charged objects is inversely proportional to the distance of separation between the two objects. An Increase in the separation distance between objects decreases the force of attraction or repulsion between the objects.
electric force.
weaker as square of distance
The mass, charge, motion (if they are charged) and distance of separation of the two objects.
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The electric force between two charged objects is decreased by a factorof 4 if you double the distance between the objects, from the formulaF=(q1*q2)/(4*Pi*Eo*r^2).
The electric force between two charged objects is decreased by a factorof 4 if you double the distance between the objects, from the formulaF=(q1*q2)/(4*Pi*Eo*r^2).
No. It can exert a much weaker force on neutral objects, due to an induced separation of charges - that is, the charged object will cause a separation of charges in the uncharged object, thus creating an electric dipole.
the stronger the electric force
-- the product of the magnitudes of the charges on the objects -- the distance between the 'center of charge' of the two objects