Friction is the force that causes static charge
charge will be suspended it will not have any direction
The strength of the electrostatic force depends on the electric charge. If you have a block of cobalt - or of just about any other material for that matter - you can put a positive charge, a negative charge, or no charge on it; and the charge can be large or small.
Two particles of the same charge will experience an electrostatic repulsive force. Specifically, the force is given by Coulomb's Law.
Electric force
ya:-):) because the charge q is proportional to potential difference
Friction is the force that causes static charge
charge will be suspended it will not have any direction
The exchange particle for electromagnetic force is the photon. It carries the force. This force is mathematically described by Coulomb's Law.
General Douglas Haig was in charge of the British force on the Somme in World War I.
The strength of the electrostatic force is inversely proportional to the square of the distancebetween the charges. So if the distance is doubled, the force becomes 1/4 of what it was.The new force is 0.80/4 = 0.20 N.
The strength of the electrostatic force depends on the electric charge. If you have a block of cobalt - or of just about any other material for that matter - you can put a positive charge, a negative charge, or no charge on it; and the charge can be large or small.
Two particles of the same charge will experience an electrostatic repulsive force. Specifically, the force is given by Coulomb's Law.
Subatomic particles - as well as atoms and molecules which are made up of such particles - have a property called "electric charge". This charge can be positive, negative, or neutral (no net charge). There is a force among such charges; this force is attractive for opposite charges, and repulsive for like charges. In other words, a positive charge and a negative charge attract one another; while two positive charges, or two negative charges, push away from one another.watts
Electric force
yes,the direction of electric force on a charge is tangent of field lines.
An electric field surrounds the charge and exerts force on other charges.