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If one charge is doubled, the electric force between the two charges will also double. This is because electric force is directly proportional to the product of the two charges.

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On what does electric force depend that is analogous to mass in gravitational force?

Electric force depends on the charge of the objects involved, analogous to mass in gravitational force. The greater the charge of the objects, the stronger the electric force between them.


What happens to the electric force when two objects are separated by 1 meter and each has a positive charge when the distance between the objects is doubled?

The electric force will be quarter of its strength.


Is the direction of the electric force on a charge is tangent to the field line?

No, the direction of the electric force on a charge is along the electric field vector and not necessarily tangent to the field line. The force on a charge will be in the same direction as the electric field if the charge is positive, and opposite if the charge is negative.


What is the direction of the electric force on charge a in the figure?

The direction of the electric force on charge a in the figure is towards the right.


What is the relationship between an electric force and an electric field?

An electric force is the force on an electric charge or an electrically charged object when immersed in an electric field.


Which type if field is present near a moving electric charge?

An electric field is present near a moving electric charge. The electric field is a force field that surrounds an electric charge and exerts a force on other charges in its vicinity.


How do the electric force between two objects depends on the amount of charge?

The electric force between two objects is directly proportional to the amount of charge on each object. As the amount of charge increases, the electric force between the objects also increases. Conversely, if the amount of charge decreases, the electric force between the objects will decrease.


What happens when you double the charge on both electric particles in a pair?

The force between two charged particles is proportional to the product of the individual charges.If one charge is 'A' and the other charge is 'B', then the product is initially (A) x (B).If you double one charge and quadruple the other charge, then the new product is(2A) x (4B) = (2 x 4) x (A x B) = 8 (A x B) = 8 times the original product.So the original force becomes 8 times stronger.


How does a charge affect an electric field?

An electric field exerts a force on a charged object. A positive charge will experience a force in the direction of the electric field, while a negative charge will experience a force in the opposite direction. The presence of a charge also generates an electric field that can interact with other charges in its vicinity.


How do you give a charge in an electric field potential energy in terms of work force and distance?

To give a charge in an electric field potential energy in terms of work, force, and distance, you would calculate the work done by the electric force on the charge as it moves through the field. This work done against the electric force is equal to the increase in the charge's electric potential energy. The work done (W) is given by the equation W = Fd, where F is the electric force and d is the distance the charge moves.


True or false as the electric charge on two objects is decreased the electric force between them increases?

False. The electric force between two objects is determined by the amount of charge on each object, as well as the distance between them. If the electric charge on two objects is decreased, the electric force between them will also decrease.


What is the direction of the electric field is opposite to that of the force if the charge?

The direction of the electric field is opposite to that of the force if the charge is negative. This is because negative charges experience a force in the direction opposite to the electric field, while positive charges experience a force in the same direction as the electric field.