Amps vary depending on mode of use. Usually 19 Volt batteries usually have a 2 ampere hour capacity. If you fully charged the battery and connected it to drill and started a timer when you turned it on at full power; you could measure the time to fully discharge. If it ran for 1 hour you would be pulling two amps. On the other hand if you shorted out the battery it would draw many more amps and die quite quickly.
How many amps do you WANT to be available in your 19.2 volts.
Unfortunately, the question as asked cannot be answered.
Volts is a measure of electrical potential, sort of like having a tank of water suspended and measuring the pressure at the bottom of a long tube. The pressure goes up as the tank is raised higher.
But the rate of water coming out of the tube (might be compared to watts) is a function of both pressure and the size of the tube.
The formula
Watts = Volts * Amps
should give you an idea of how the three measurements interrelate. You must know two to be able to calculate the third.
At 120 volts it will pull 4.166 amps. At 240 volts it will pull 2.08 amps.
Watts = Volts times Amps. Therefore, if the voltage was 220 volts, the motor would draw 500 amps. If the voltage was 4,000 volts, the motor would draw 27.5 amps. The voltages for large powerful motors tend to be relatively high, for example in the 380 Volts to 11,500 Volts range.
There are zero amps in 3000 volts. A load needs to be connected to the voltage.
36.6 amps maximum at 120 volts, but should not be loaded to over 29 amps. At 240 volts it will produce a maximum of 18.3 amps but never loaded to any more than 14.6 amps.
volts = watts divided by amps amps = watts divided by volts watts = amps times volts so 266,000 watts divided by 380 volts = 700 amps and I might also point out that whatever it is you are talking about is very dangerous and can kill you in less than a heartbeat. I'd be sure to talk with an electrician if I were you if you plan on going anywhere near that.
160 amps at 12v.
160 amps at 12v.
Ohm's law: Volts = Amps * Ohms, or Amps = Volts / Ohms 12 volts / 0.5 ohms = 24 amps
4 volts and how many amps? Watts = amps x volts. It depends on the amount of current (in Amps) flowing at 4 Volts... See Ohms Law: Watts = Volts x Amps If you have 2 Amps flowing at 4 Volts you are dissipating/consuming 8 Watts. If you have 10 Amps flowing at 4 Volts you are dissipating/consuming 40 Watts.
The formula to calculate the relationship between amps, volts and watts is Volts X Amps = Watts or Volts = Watts / Amps or Amps = Watts / Volts therefore; 200 Watts divided by 1.95 Amps is 102.5641 Volts.
It depends on how many Amps (current) are applied to the voltage. Watt = Volts x Amps. e.g. 12 volts @ 5 amps = 60 watts
It's not that simple. The basic formula is Volts / Ohms = Amps. For 30 Volts you'd get 0.5 Amps, for 60 Volts you'd get 1 Amp, for 120 Volts you'd get 2 Amps.
It depends on how many Amps (current) are applied to the voltage. Watt = Volts x Amps. e.g. 12 volts @ 5 amps = 60 watts
41.666 amps. Divide watts by volts.
There are zero volts in .1 amps.
Amps can not give you a kilowatt with out a voltage being applied to the question. Watts = Amps x Volts. Amps = 1000/ Volts.
watts = volts * amps--> Amps = watts/ volts therefore; 2000/220= 9.09 amps