To find how many coulomb can be transferred in one second depends on the ampere. A coulomb is defined as 1 coulomb equals 1 ampere times 1 second or the current of one ampere in one second time.
That's depending on the material and the diameter of the conductor.
300A means that 300 coulombs of electrons are passing through it per second. 300 coulombs is (1.87 * 10^19) electrons, or simple 300C of electrons.
One electron carries a charge of 1.602 E-19 Coulombs. The difference in charge is -7 nanoCoulombs. One nanoCoulomb is 1 E-9 Coulomb. Then, by division, there were 4.36 E10 electrons transferred.
1.602e-19 is the value in coulombs of the "Elementary charge", denoted by e.
A joule / second is a watt. The watt is a unit of power. In general terms, power means energy expended, produced, or transferred, per time unit.A joule / second is a watt. The watt is a unit of power. In general terms, power means energy expended, produced, or transferred, per time unit.A joule / second is a watt. The watt is a unit of power. In general terms, power means energy expended, produced, or transferred, per time unit.A joule / second is a watt. The watt is a unit of power. In general terms, power means energy expended, produced, or transferred, per time unit.
'E' = voltage across the lamp = 230'I' = current through the lampPower = 60 watts = E x I = 230 II = (60 / 230) Amperes = (60/230) Coulombs per second.1/2 hour = 1,800 seconds.Total charge in 1/2 hour = (60/230) x (1,800) = 469.57 coulombs (rounded)
one per second per amp.
72 coulombs in 24 seconds is 3 amperes.One ampere is one coulomb per second.
Here we are given 3.1 amperes of current and are asked to find the time it takes 10 coulombs of charge to pass a given point. First ask yourself how many coulombs are passing a given point in one second. If we have 3.1 amperes of current, we have 3.1 coulombs of charge passing any given point in one second. If it takes 1 second for 3.1 coulombs of charge to pass, how long will it take for 10C of charge to pass?
300A means that 300 coulombs of electrons are passing through it per second. 300 coulombs is (1.87 * 10^19) electrons, or simple 300C of electrons.
One electron carries a charge of 1.602 E-19 Coulombs. The difference in charge is -7 nanoCoulombs. One nanoCoulomb is 1 E-9 Coulomb. Then, by division, there were 4.36 E10 electrons transferred.
If a battery sends a current of 10A through a circuit for one hour how many coulombs will flow through the circuit?
A flow of 7400 coulombs in 85 seconds represents a current of 87 amperes. One ampere is one coulomb per second, so divide 7400 by 85.
Electrical current is the number of elementary charge units (coulombs) that pass by a given point in one second. Current, measured in amperes, is coulombs per second. Electrical voltage is the "pressure" behind that current. Voltage, measured in volts, is joules per coulomb.
The "C" stands for Coulombs. It is the standard unit of electric charge. It is the amount of charge transported by one amp in one second.
1 faraday = 9.6485 x 104 coulombs (rounded)
Only one electron is transferred.
in one electron there is a charge of 1.60217646 × 10-19 coulombs now to get your answer its going to be 1110 * 1.60217646 × 10-19 coulombs= 1.7784158706 x 10^-16