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I'm not sure what this question really means - should it be more like "what two things affect the force between two electric charges?" If this is correct then the answer is probably: 1. The amount of charges. 2. The distance between the charges.
Force between charges depend on the quantity of charge and distance between them
Electric field strength depends on direction and magnitude because it is a vector quantity.
The electric force becomes four times stronger.
there is an electric shock when the charge transfers
I'm not sure what this question really means - should it be more like "what two things affect the force between two electric charges?" If this is correct then the answer is probably: 1. The amount of charges. 2. The distance between the charges.
I am not sure but i thinks they are:Positive chargeNegative charge
Not enough information. You not only need to know the distance, but also the electric charge - not just that it is "positive", but the exact amount of charge.
Force between charges depend on the quantity of charge and distance between them
The electric force will be quarter of its strength.
Hello, some error in the words. Electric "force" not electric charge. A/s we increase the distance between the charges ./2 times then force between them will be halved.
Electric field strength depends on direction and magnitude because it is a vector quantity.
The electric force becomes four times stronger.
there is an electric shock when the charge transfers
Experiments have shown that the electric force between two objects is proportional to the inverse square of the distance between the two objects. The electric force between two electrons is the same as the electric force between two protons when they are placed as the same distance. This implies that the electric force does not depend on the mass of the particle. Instead, it depends on a new quantity: the electric charge. The unit of electric charge q is the Coulomb (C). The electric charge can be negative, zero, or positive. The electric charge of electrons, protons and neutrons are -1.6 x 10-19, 1.6 x 10-19, and 0. Detailed measurements have shown that the magnitude of the charge of the proton is exactly equal to the magnitude of the charge of the electron. Since atoms are neutral, the number of electrons must be equal to the number of protons. The precise magnitude of the electric force that a charged particle exerts on another is given by Coulomb's law.
Electric charge
An electric force is the force on an electric charge or an electrically charged object when immersed in an electric field.