Want this question answered?
Positive electric fields attract negative charges while negative electric fields attract positive charges.
The answer is voltage, resistance, electric discharge, and current. It is caused by a difference in energy stability between two points that favors a charge to move down a potential difference.
The product of the two charges and the distance between the charges.
electric force between 2 charges is equal to product of the amount of charge(in units) of both particles and a constant 9*109 divided by the square of the distance between them.
TRUE
Positive electric fields attract negative charges while negative electric fields attract positive charges.
Magnetic dipole is due to two poles of magnet. Electric dipole is due to +ve and -ve charges of electric charges.
The difference between dielectric and insulator lies in its field of application.Dielectrics are used to store the electric charges, while insulators are used to block the flow of electric charges ( they more or less act like a wall).While all dielectrics are insulators (they don't allow the flow of electric charges through them) all insulators aren't dielectric because they can't store charges unlike dielectrics.
There is no potential difference between identical charges
The forces in each direction are quadrupled.
Radiant energy is energy related to radiation. Electric energy, on the other hand, is energy related to electricity - such as electrical currents, and stored charges.
Yes, a charge is the fundamental electric property to which the mutual attractions or repulsions between electrons or protons is attributed. Electric charges are constantly flowing.
Yes, a charge is the fundamental electric property to which the mutual attractions or repulsions between electrons or protons is attributed. Electric charges are constantly flowing.
The attraction or repulsion between electric charges.
The relationship between positive and negative electric charges is in their number of electrons. This causes them to be attracted or repel each other based on this charge.
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.
The difference between the positive charges (protons) and the negative charges (electrons).