the charge of 1 coulomb is the charge associated with 6.25 billion billion electrons
The value of 1 coulomb of electric charge is equivalent to approximately 6.25 x 10^18 elementary charges, which is the charge of a single electron or proton. It is a large unit of charge used in physics and electrical engineering to quantify the amount of charge present in a system.
The charge of one electron is the same as the charge of another electron. Electrons carry a fundamental unit of negative charge, which is -1.6 x 10^-19 coulombs. This charge is constant for all electrons.
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).
This is a chemical element. You can find the how many electron in a single atom by using a periodic table.
There is less than one faradays of charge in a single electron. It takes thousands of electron to charge anything and only either protons or neutrons are capable of charging a single electron.
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
e = 1.6*10^-19c {the charge of 1 electron) so N = 1c / e = 6.25*10^18 electrons {divide 1 by e to find out how many} 1 billion is 10^9 so N / 10^9 = 6250000000 billion electrons! {divide by billion to find out answer in billions} Its a big number because e is a very small number! It takes a lot of electrons to make 1 coulomb.
An electric charge is a property of a subatomic particle that defines both of the influence of an electromagnetic field on this particle, and the electromagnetic field produced by this particle. It was discovered by Michael Faraday and expressed in Coulomb which equals 6.25E18 e where e is the charge of a single electron (elementary charge) which is −1.602E-19 Coulomb. by convention an electron has a charge of -1 while protons have a charge of +1. A proton is made up of three quarks (2up and 1 down). Quarks have a fractional charge of -1/3 or +2/3, the anti particles positrons, antiprotons and antiquarks have the opposite charge.
electron
A proton has single positive charge neutrons have no charge and a electron has a single negative charge
To calculate the number of electrons, you need to know the total charge of the system or material in question and the charge of a single electron (approx. -1.6 x 10^-19 coulombs). By dividing the total charge by the charge of a single electron, you can determine the number of electrons. Formula: Total number of electrons = Total charge / Charge of a single electron.
the charge of either a single proton, or the absolute charge of a single electron is approximately 1.602176487(40)×10−19 coulombs .The magnitude of the elementary charge was first measured in Robert A. Millikan's noted oil drop experiment in 1909