Two positive charges will repel each other due to the electrostatic force between them. The force of repulsion between the charges will increase as they get closer to each other.
When two objects with excess positive charges are brought close together, they repel each other due to the like charges. This repulsion is a fundamental property of electric charges known as the electrostatic force.
When two similar charges (positive or negative) are brought close together, they will repel each other due to the electrostatic force of repulsion between like charges. The closer they are, the stronger the repulsion will be. This is governed by Coulomb's Law, which states that like charges repel each other, while opposite charges attract.
The field lines repel each other and spread outward because like charges repel. The field lines become more dense between the charges due to the increased electric field strength.
When charged materials are brought close to each other, they can either attract or repel each other depending on the type of charge they possess. Opposite charges (positive and negative) attract each other, while like charges (positive and positive, or negative and negative) repel each other due to the forces of electromagnetism.
If two negatively charged rods are brought close to each other, they will repel each other due to the like charges. The negative charges on the rods will create a force that pushes them away from each other.
When two objects with excess positive charges are brought close together, they repel each other due to the like charges. This repulsion is a fundamental property of electric charges known as the electrostatic force.
When two similar charges (positive or negative) are brought close together, they will repel each other due to the electrostatic force of repulsion between like charges. The closer they are, the stronger the repulsion will be. This is governed by Coulomb's Law, which states that like charges repel each other, while opposite charges attract.
The field lines repel each other and spread outward because like charges repel. The field lines become more dense between the charges due to the increased electric field strength.
When charged materials are brought close to each other, they can either attract or repel each other depending on the type of charge they possess. Opposite charges (positive and negative) attract each other, while like charges (positive and positive, or negative and negative) repel each other due to the forces of electromagnetism.
Nothing.
False
If two negatively charged rods are brought close to each other, they will repel each other due to the like charges. The negative charges on the rods will create a force that pushes them away from each other.
A proton has positive charge and an electron has negative. They pull/attract for this very reason. Like-charges repel, and opposites attract. Think of magnets! When you put the same poles close to one another, what happens? They repel and they don't want to stick. But what happens when you put the south pole near the north pole? They pull and attract!
When charged polythene rods are brought close together, they will experience a force of either attraction or repulsion depending on whether they have the same or opposite charges. Like charges repel each other, while opposite charges attract. This behavior is governed by the principle of electrostatic force.
When the switch is closed in a simple circuit, the negative charges (electrons) flow from the negative terminal of the battery through the circuit and back to the positive terminal. This flow of electrons creates an electric current that powers the circuit components.
Objects with the same charge will repel each other when they come close to one another due to the electrostatic force of repulsion between like charges. This is because like charges carry the same type of charge, either positive or negative, and thus there is a force that pushes them away from each other to minimize the energy of the system.
The golden leaf electroscope can be charged positively by induction by first bringing a positively charged object close to the electroscope. The positive charges on the object attract the negative charges in the electroscope, causing the positive charges in the electroscope to be repelled to the leaves, thus giving the electroscope a positive charge.