Zero amps equal one volt. To find amperage you need one of the following formula I = E/R, I = W/E or I = to the square root of W/R.
I is amperage, E is voltage, W is watts and R is resistance.
A volt is a unit of electrical potential, joules per coulomb.
An ampere is a unit of electrical current, coulombs per second.
The two are not related, unless you also know the resistance, in which case Ohm's Law says volts = amperes times ohms.
Volts * Amps = Watts
These are three different units of electricity, each with it's own unique significance.
The volt-amps are equal to the volts times the amps, so you need to know the voltage as well as the current.
The unit of measure for voltage is volt. Ohm measures resistance.
It is expressed in Volt-Amperes not Watts.
Since, by Ohm's law, Voltage is amperes times ohms, the voltage one would expect across a 1 ohm load would be 1 volt per ampere.
LxW of building x 3 volt amps per sq. foot
It depends on how much power the lamps require, and on how they are connected.
Amp, Amperes is current. Volt, and any variation, is tension. There's no direct translation between them.
milli volt amperes, unless it's MVA then it is Mega Volt Amperes. Such as in the use of large transformers
The unit of measure for voltage is volt. Ohm measures resistance.
It depends on how much current it's putting out. An inverter rated at 800 volt-amperes can deliver 220 volts at 3.636 amperes, or it can deliver 110 volts at 3.727 amperes.
Divide the circuits amperage into the volt amps and you will get the voltage.
1 volt x 1 ampere = 1 watt, a unit of power. One watt is also the same as one joule / second.
mA means milli-amperes VA means Volt-amperes
It is expressed in Volt-Amperes not Watts.
If a device doesn't give its power rating in kVA (or VA), then it can be calculated pretty easily: (volt-amperes) VA = V (voltage) x A (maximum amperage) (kilovolt-amperes) kVA = VA (volt-amperes) / 1000
Mega volt amperes
You need to use a 2:1 ratio transformer, with a capacity (in volt amperes) to match the load you have in mind.
Since, by Ohm's law, Voltage is amperes times ohms, the voltage one would expect across a 1 ohm load would be 1 volt per ampere.