one per second per amp.
An amp is a measure of electric current flow. The amp is a coulomb per second past a given point. (A fancy way of saying it is that a coulomb of charge per second entering and leaving a node is an amp.)
The unit quantity of electricity is the Coulomb. The rate of electricity flow in coulombs per second is the Ampere, sometimes shortened to Amp. Note: current doesn't flow, instead current itself is a flow rate (flow of coulombs of charge per second.) When coulombs are flowing, the flow rate is measured in amperes.
The unit quantity of electricity is the Coulomb. The rate of electricity flow in coulombs per second is the Ampere, sometimes shortened to Amp. Note: current doesn't flow, instead current itself is a flow rate (flow of coulombs of charge per second.) When coulombs are flowing, the flow rate is measured in amperes.
There are approximately 1.875 x 10^19 electrons in 3 coulombs of charge. This is based on the charge of an electron being 1.6 x 10^-19 coulombs.
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.
To calculate the amperes when given coulombs, use the formula: Current (I) = Charge (Q) / Time (t). If the time is not specified, you can't determine the current from just the charge in coulombs.
1 Ampere = 1 Coulomb/sec (225 Coulomb) / (5 sec) = 45 Coulomb/sec = 45 Amp.
Limitations of coulombs law
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1x10^-9 nC = 1 C
To calculate the time it takes for 9 coulombs to pass a current of 3 amps, you can use the formula: time = charge / current. Plugging in the values, time = 9 coulombs / 3 amps = 3 seconds. So, it would take 3 seconds for 9 coulombs to pass a current of 3 amps.
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