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.
10
There are about 6.24 x 1018 electrons (or protons) in one coulomb of charge.
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.
1.25 x 1019 give or take a few
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.
10
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
539000 times as much as 1 coulomb.
The charge itself has no mass - it is more like a property of objects, that do have charge. How much mass you need for one coulomb of charge would depend on whether you are talking about electrons, protons, etc.
To find the number of electrons in a charge, you divide the charge by the charge of a single election. In this case it would be: -1C/(-1.6x1o^-19)=6.25x10^18 So 6.25x10^18 electrons are necessary to produce a charge of 1 C