Two negative charges that interact when they are brought together they would repulse, from each other.-Jeremy
They repelh
Nonmetals have negative charges.
Two like charges will repel each and will be attracted to the opposite charges.
alex oulton
Electrically Neutral
The algebraic sum of the charges in a compound is zero. Each atom contributes either a negative or a positive charge to form the compound when they react with each other.
what happens when 2 positive charges interact
The charges are the same. To increase the potential energy, the agent must do + work on the charges. If the agent must do + work, then the charges are resisting being brought together.
if they are opposite charges, they attract. if they are like, they repel.
If you connect them with a conductor, the charges will get together.
Static electricity is when you have an excess of electrons and they are not flowing, hence the term 'static'. In electricity you have two possible charges, positive and negative, like charges is when the two things in question have a net charge that is the same, that is object A has a positive charge, and object B has or positive charge. Their charges could also be negative, it doesn't matter as long as they are the same as each other. unlike charge means just the opposite, object A would have a positive charge while object B would have a negative charge (or visa-versa). When like charges are brought together, they repel each other. On the other hand, when unlike charges are brought together, they attract each other.
negative
magpakamatay ka
if you are using magnets, they stick together.
If positively charged body is brought near then opposite charges i.e. negative charges are induced and hence attraction occurs
When two magnets are brought together, the opposite poles will attract one another, but the like poles will repel one another. This is similar to electric charges. Like charges repel, and unlike charges attract.
Two negative charges that interact when they are brought together they would repulse, from each other.-Jeremy
Magnetics forces