Amperes are a unit of electrical current flow, in coulombs per second. Volts are a unit of electrical potential difference, in joules per coulomb. The two units can not be converted without some intervening device characteristic such as resistance or power.
Since kilo- means one thousand, there are one thousand amperes in a kilo-ampere, and there are 0.001 amperes in a kilo-ampere.
The ampere was named after André-Marie Ampère.
The numerical representation of one coulomb of charge moving past a point in a circuit per second is called an ampere.
It depends on the voltage and whether it is a single- or three-phase load.
This typically has to do with how many amps you can safely pull from the secondary of the transformer.
The shunt has a 4 mv per Amp rating. ( 200A / 50mv = 4 ). At 37 mv there will be 148 Amp flowing. (37mv * 4).
One ampere is equal to 1000000 microamperes.
rms - 0.707 times peak 2 peak. since 80dB has no reference there is no answer. dB is mearly a ratio 80dB=10,000 times greater than 0dB dBm is ref to 1 milliwatt and dBu is ref to 0.775 volts RMS if 50mV is p-p then 50mV p-p * 0.707 = 35.35 mV.
One ampere = one coulomb every second .
.63 ampere draw @ 7 volts
Since kilo- means one thousand, there are one thousand amperes in a kilo-ampere, and there are 0.001 amperes in a kilo-ampere.
Andre Ampere didn't 'invent' the ampere. The unit for current was named many years after the death of Ampere, in his honour. The ampere is defined in terms of its magnetic effect -i.e. the resulting force between two, parallel, current-carrying conductors. It was Ampere who discovered the relationship between current and force.
Since kilo- means one thousand, there are one thousand amperes in a kilo-ampere, and there are 0.001 amperes in a kilo-ampere.
Ampere are the measure of electricity but one ton is a measure of mass. So,the two can not be compared.
That's like asking how many meters in a liter. Ampere and Volt are two DIFFERENT measurements. Ampere is how much electricity you are using, while volts are how much pressure the electricity is under(Think water). If you want to figure out how many amperes your appliance is using you could use this formula: P=UxI (Watt=Volt x Ampere) or U=RxI(Volt=Resistance x Ampere).
1000
The contributions on Ampere in physics are so many. He is played a significant role in establishing electrodynamics used in electricity and magnetism.