To get the number of electrons use the formula n = q/e
q the charge given, e = elementary charge which is of electron or proton
So n = 10 x 10-6 / 1.6 x 10-19
Hence number of electrons = 6.25 x 1013
Different batteries have different capacities, and will therefore store a different amount of energy - and require a different power if you want to charge them in the same time.
If an atom has five valence electrons, it will have one lone pair of electrons.
i pretty sure there's only 1 pair of electrons on XeF6
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It takes 6.25E18 electrons to produce 1 coulomb of charge.
The charge of 96,481 electrons; approximately counted as either 96,490 or 96,500 as per convenience has a charge equivalent to a Coulomb.
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There are about 6.24 x 1018 electrons (or protons) in one coulomb of charge.
Charge on electron = - 1.602 X 10 -19 coulomb, so..., - 58. 0 coulomb/- 1.602 X 10 -19 coulomb = 3.62 X 1020 electrons ===============
A coulomb is defined as a positive charge. 1 coulomb is the charge of 6.24 x 1018 protons. Multiply that by a million (106) for your question. However, the same number of electrons would have a charge of minus a million coulomb.
6.25 x1018 electrons make up 1 Coulomb of negative charge.
6.242 x 1018
The elementary charge ... the amount on one electron or one proton ... is 1.602 x 10-19 coulomb.So, in order to collect one coulomb, you'd need 6.242 x 1018 electrons or protons.(That's the number of electrons that pass by the middle of the wire every secondwhen the current in it is 1 Ampere.)
1.25 x 1019 give or take a few
The Coulomb is a 'derived' unit depending on the basic units of the metric system. So one Coulomb is the amount of charge in an electric current of one Ampere/second--the Ampere being the current required to obtain an amount of magnetic force between a pair of current carrying wires. The Millikan oil drop experiment, which measures the charge on a single electron, provides the answer to how many electrons per second are in one Ampere. A single electron has a charge of 1.60217733 × 10-19 Coulombs. A collection of 6.2415 × 1018 electrons has a charge of one Coulomb (1/1.60217733x10-19).
539000 times as much as 1 coulomb.