A strange question, but there is a calculator which could help you. Scroll down to related links and look at "Electricity and Electric Charge - Electrical voltage V, amperage I, resistivity R, impedance Z, wattage P".
An in-home oxygen concentrator typically uses between 300 to 500 watts when running at full capacity. It's important to check the specific model you have to determine the exact wattage it consumes.
The amp-hour rating of a battery depends on its capacity. Typically, a 1.5V nickel-cadmium battery may have a capacity ranging from 600mAh to 1000mAh. To find the amp-hour rating, you would divide the capacity (in mAh) by 1000.
The conversion of Anson-units is that in Chemistry you have to multiply by the conversion units, to get the Anson-units.
The thermal conductivity of aluminum is about 205 watts per meter-kelvin (W/mK).
A 4500 watt element can work on a 20 amp breaker, but it may occasionally trip if the total load on the circuit exceeds 20 amps. It is recommended to use a 4500 watt element with a 25 amp breaker to ensure consistent performance.
The Audiobahn amp A2601Q model has a maximum power output of 2600 watts.
The Alpine V12 MRV-T501 amp has a maximum power output of 500 watts.
120Watts=1Amp
A 15 amp circuit can safely handle up to 1800 watts of power.
The formula for watts is, Watts = Amps x Volts.
Total power output (Total RMS output): 1000 watts
how many watts does he amp have in a 2005 chevy impala
Total power output (Total RMS output): 1000 watts
Volts * Amps = Watts 12 Volt * 2 amp = 24 Watts
watts = volts x amps, example-2 watts=2 volts x 1 amp, example- 2 watts=120 volts x .60 amp.
Power (in watts) is equal to voltage (in volts) multiplied by current (in amperes). Therefore, the number of watts in one amp depends on the voltage. For example, at 120 volts, one amp is equal to 120 watts.
On a 12-volt system 1.6 amps is 12x1.6 watts, 19.2 watts