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a part of the energy that is transferred to the load is lost in heating.Therefore actual work done by the charge will be a little less.
That depends on the voltage. In general, a coulomb of charge will either gain or lose (depending on the direction) one joule of energy for every volt of potential difference. For example, if the battery has 12 V, a coulomb of charge will gain or lose 12 joules of energy when going from one terminal to the other.
The amount of charge in 1 Coulomb is exactly 1 Coulomb of charge. That's true whether the charge is positive or negative.
A coulomb is bigger. Please also note that a coulomb is defined as a POSITIVE charge, while an electron has a NEGATIVE charge. Anyway, the magnitude of a coulomb is much bigger than that of an electron.
(coulomb) A quantity of electric charge. Passage of 1 coulomb per second along a wire is called 1 amp (ampere) of electric current.
a part of the energy that is transferred to the load is lost in heating.Therefore actual work done by the charge will be a little less.
The potential difference ('voltage') is equal to the work done per unit charge, i.e. the energy given to each Coulomb of charge. So, a six Volt battery provides six Joules of energy to each Coulomb of charge.
coulomb
A joule/coulomb is represented by the volt. Example: a 9v battery provides 9 joules of energy to every coulomb of charge that passes through it.
That depends on the voltage. In general, a coulomb of charge will either gain or lose (depending on the direction) one joule of energy for every volt of potential difference. For example, if the battery has 12 V, a coulomb of charge will gain or lose 12 joules of energy when going from one terminal to the other.
A coulomb, or ampere second, is the SI unit of electric charge. It is equivalent to the combined charge of 6.24 X 1018 protons.
A coulomb is equal to 6.24 × 10 (10 is to the power of 18)
Electricity is the movement of electrons, which carry a negative charge. The quantity of charge is called the Coulomb. In a circuit carrying a current I, this means that a charge of I coulombs is being transferred every second. Electricity can also be static, such as the charge produced on some materials when rubbed, in which case the amount of static electricity held is again measured in coulombs. See Wikipedia entry for Coulomb
The amount of charge in 1 Coulomb is exactly 1 Coulomb of charge. That's true whether the charge is positive or negative.
One Coulomb is the charge of about 6,241,510,000,000,000,000 electrons, so it looks likea Coulomb would probably be bigger than the charge on one electron.
The Coulomb is a unit of electric charge. [Charge] is a fundamental quantity.
A coulomb is bigger. Please also note that a coulomb is defined as a POSITIVE charge, while an electron has a NEGATIVE charge. Anyway, the magnitude of a coulomb is much bigger than that of an electron.