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Rate of flow of charge is called electric current. Generally we knows current means flow.... here rate of flow of charge means how much charge flows in a given time is called electric current
I'm not sure what this question really means - should it be more like "what two things affect the force between two electric charges?" If this is correct then the answer is probably: 1. The amount of charges. 2. The distance between the charges.
Yes. The idea of an insulator, however, is that it doesn't conduct much electricity. Some electricity (electric charge) will always be conducted, but not much if the material is called an "insulator".
That's probably going to depend on where the charge is, or, for that matter, the nature of the origin of the field. There is much here that you have not told us.
An insulator will not allow much current to pass. There is a large quantity of insulating materials. There are no perfect insulators or conductors.
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A gas stove makes it much easier for some one cooking to have a more precise temperature. However, if you're looking for something cheaper and easier to install, then an electric stove will be right for you.
Very good condition
The weight of stove will vary depending on whether it is gas or electric and what it is made of. A stoves may weigh between 100 and 250lbs.
Depends on the stove, the kind of stove, and when. Do you mean a wood burning kitchen range from 1900 or a heating stove from 1940, or an electric range from 1960? Parts of the early Sears catalogs are available on line, and you can look at the price of things from around 1902.
I should charge 5%
Rate of flow of charge is called electric current. Generally we knows current means flow.... here rate of flow of charge means how much charge flows in a given time is called electric current
Yes but not by much
Depends on the quality of the batteries and the care that you charge them with.
It depends on the stove. If you can find the manual, or look up the AMPs it uses. Should be around 50. Multiply 120V if you live in the US. By the number of Amps. That will give you the total amount of watts.
I'm not sure what this question really means - should it be more like "what two things affect the force between two electric charges?" If this is correct then the answer is probably: 1. The amount of charges. 2. The distance between the charges.