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The conservation of charge law from Maxwell's equations states that the current through any enclosed surface is equal to the time rate of charge within the surface.
There are several conservation laws in nature: conservation of mass, conservation of energy, of momentum, of angular momentum, of electric charge, and others.
charges can not be created or distroyed
Example based on conservation of charge : Glass rod rubbed with silk: When a glass rod is rubbed with silk ,glass rod attains positive charge and silk acquires equal negative charge .Although positive and negative charge have been developed , the net charge on the system is zero , i.e., the same as was before rubbing . NOTE: Rubbing does not create charge but only transfers heat it from one body to another. The charge that is gained by one body is lost by the other .Hence electric charge is conserved.
Conservation of charges
No, those are two separate conservation laws. Charge is not energy. They are entirely different things.
Not "change", but "charge". Conservation of charge means that the total charge in a closed system can't change.
Conservation of Matter, Conservation of Energy, Conservation of Charge and Conservation of Momentum.
Conservation of charge means that a net electric charge is not created or destroyed. This type of charge is instead transferred from one specific material to another.
The conservation of charge law from Maxwell's equations states that the current through any enclosed surface is equal to the time rate of charge within the surface.
There are several conservation laws in nature: conservation of mass, conservation of energy, of momentum, of angular momentum, of electric charge, and others.
yes it is
charges can not be created or distroyed
[the law of conservation of energy]Wrong: The law of conservation of energy says that energycannot be created or destroyed. Do not change an answer unless you know the answer.The correct answer is the Law of Conservation of Charge, which states that the net charge of an isolated system remains constant.
The similarity is the "conservation" part - there is something that doesn't change over time.And of course, according to Nöther's theorem, that is the result of a symmetry of nature. * In the case of conservation of energy, time symmetry (the fact that the laws of physics don't change over time). * In the case of conservation of charge, gauge invariance.
there is a conservation of mass and charge.
There is no one "law of conservation", there are several laws, such as conservation of energy, conservation of mass, conservation of electric charge, conservation of rotational momentum, etc.What is always true is that there is SOME quantity that doesn't change in the case of a closed system.