This is not a proper question. What is 'it' referring to?
The unit of the Coulomb constant is Newton square meters per square Coulomb.
The SI unit of Coulomb's constant is Nm^2/C^2 (Newton meter squared per coulomb squared).
A coulomb per second is equivalent to an ampere, which is the unit for electric current.
One coulomb per second is defined as an ampere (A), which is the unit of electric current. It represents the flow of one coulomb of electric charge per second in a circuit.
The SI unit of electric charge is called the coulomb. It is a derived unit, and is defined as the amount of charge moved by a steady state current of one ampere for one second. Alternatively, it is defined as the amount of charge across a capacitance of one farad charged to a potential of one volt. In terms of elementary charge, from nuclear physics, it is defined as the charge represented by about 6.24150965 x 1018 protons or electrons.
The SI unit of capacitance is the farad. 1 farad is 1 coulomb per volt.
One farad is equal to one coulomb of electric charge stored per volt of potential difference across a capacitor. In simpler terms, a capacitor has a capacitance of one farad when it can store one coulomb of charge for every volt applied across it. This unit is named after the physicist Michael Faraday.
farad is the unit for capacitance in SI system. If one volt is developed as one coulomb charge is placed then capacitance has to be one farad. But one farad is enormous large one so practically speaking we use only micro farad, nano farad and pico farad. They are respectively 10-6 F, 10-9 F and 10-12 F
The unit of the Coulomb constant is Newton square meters per square Coulomb.
The unit of electrical capacitance is Farad (F) named after Michal Faraday. A farad is the charge in coulombs a capacitor will accept for the potential across it to change 1 volt. A coulomb is 1 ampere second.
Capacitors are built to different specifications depending on application. The higher the capacitance the more charge the capacitor can store.The capacity to store electric charge, when a voltage is applied. Measured in Farad = Coulomb/Volt. In other words, if for every volt applied the capacitor stores 1 coulomb of charge, it would have a capacitance of 1 farad. In practice this is a huge unit, and the capacitance is usually expressed in micro-, nano-, or even pico-Farad.
1 joule per coulomb = 1 volt
Farad
The SI unit of Coulomb's constant is Nm^2/C^2 (Newton meter squared per coulomb squared).
In SI, the 'volt' is a special name given to a joule per coulomb.
The Coulomb. If 1 Coulomb is transmitted per second this is 1 Ampere
A coulomb per second is equivalent to an ampere, which is the unit for electric current.