your question lacks supporting evidence to convert watts into amps.
here's an example to make 1.6amps, though...
Power(aka)watts=> [ P=VxI ]
so if your amps is 1.6
than P=Vx1.6
lets say your voltage is 120
than P=120x1,6
P=192watts
A 2.5kVA generator is capable of producing 2,500 watts of power. This is because 1kVA is equivalent to 1,000 watts, so to convert kVA to watts you simply multiply by 1,000.
watts
The power used by the heater can be calculated using the formula: Power = Voltage x Current. In this case, the power would be 460 volts x 5 amps = 2300 watts.
To calculate the current (in amps), you can use the formula: Current (Amps) = Power (Watts) / Voltage (Volts). In this case, if you have a 65-watt power supply with a voltage of 240 volts, the current would be 0.27 amps.
You can measure the current and power of a 'power supply', using an ammeter and a wattmeter. With the power supply connected to its load, the ammeter must be connected in series with the power supply's input. The wattmeter's current coil must also be connected in series with the power supply's input, and its voltage coil must be connected in parallel with the supply, taking the instrument's polarity markings into account.
300 watts
any power supply with at least 175 watts
nominal 600 watts 610 Watts
Its usually written on a label on the outside of the power supply box. The number will specify Watts, i.e.150W for 150 Watts
Funny phrasing - but I assume it is about adding a bigger power supply. Answer: power supply must be replaced with one of higher nominal wattage. No way to "add watts" otherwise.
Watts.
Amps are not directly convertible to horse power, which is a measure of power. Power is current times voltage. Therefore on a 240 v supply, 9.2 amps equals 2208 watts. One horse power is 746 watts.
A 2.5kVA generator is capable of producing 2,500 watts of power. This is because 1kVA is equivalent to 1,000 watts, so to convert kVA to watts you simply multiply by 1,000.
The Whirlpool MT4155SPQ 1.5 CuFt Countertop Microwave Oven supplies 1200 watts of power.
watts
Your question is rather confusing. Are you asking what the power requirement is for the supply to a d.c. motor? In which case, it depends entirely on the power rating of that motor, which can range from a few watts up to thousands of watts.
The power used by the heater can be calculated using the formula: Power = Voltage x Current. In this case, the power would be 460 volts x 5 amps = 2300 watts.