The device consumes 84 watts of power. This can be calculated by multiplying the voltage (12 volts) by the current (7 amps). So, 12 volts x 7 amps = 84 watts.
To calculate horsepower, use the formula: Horsepower = (Voltage x Current x Efficiency) / 746 Given 110 volts and 7 amps: Horsepower = (110 x 7) / 746 Horsepower ≈ 1.03 hp
A 1-HP motor is reckoned to draw 7 amps at 240 v single-phase. The same power of motor would draw 3.5 amps at 480 v single-phase, but a 480 v supply could most likely be a three-phase suppy, and the current in that case would be reckoned as 2 amps.
Most household microwaves require around 10-12 amps to operate efficiently. It's recommended to use a dedicated circuit with a 15-20 amp breaker to ensure safe and proper functioning of the microwave.
To calculate the amperage, you need to know the voltage of the circuit. If you assume a standard 120V circuit, you can use the formula: Amps = Watts / Volts. For 6500 Watts on a 120V circuit, it would be approximately 54.17 Amps.
"Power (/Watts) = Current (/amps) * Potential Difference (/volts)" Therefore, power = 7 * 12 = 84 W
The estimated watts of a vacuum cleaner needed is 7 to 12 amps or 144 watts.
In general, multiply the (rms) current by the (rms) voltage to get the power. If the voltage to the appliance is 120 Volts, then the power of 4.2 Amps is 504 Watts. If the voltage is 240 Volts, then 1008 Watts. Note: To be technically accurate, you must also multiply the cosine of the phase-angle between current and voltage. For any typical appliance, this is 1 and can be ignored. <<>> There are zero watts in 4.2 amps. Watts = Amps x Volts. Without a voltage stated the wattage can not be calculated.
The device consumes 84 watts of power. This can be calculated by multiplying the voltage (12 volts) by the current (7 amps). So, 12 volts x 7 amps = 84 watts.
To calculate horsepower, use the formula: Horsepower = (Voltage x Current x Efficiency) / 746 Given 110 volts and 7 amps: Horsepower = (110 x 7) / 746 Horsepower ≈ 1.03 hp
A 1-HP motor is reckoned to draw 7 amps at 240 v single-phase. The same power of motor would draw 3.5 amps at 480 v single-phase, but a 480 v supply could most likely be a three-phase suppy, and the current in that case would be reckoned as 2 amps.
Most household microwaves require around 10-12 amps to operate efficiently. It's recommended to use a dedicated circuit with a 15-20 amp breaker to ensure safe and proper functioning of the microwave.
To calculate the amperage, you need to know the voltage of the circuit. If you assume a standard 120V circuit, you can use the formula: Amps = Watts / Volts. For 6500 Watts on a 120V circuit, it would be approximately 54.17 Amps.
you must divide the 1000 watt vacuum by its volts to get amps. Example: if a 1000 watt vacuum has 120volts then the vacuum gets about 8.3 amps. volts x amps = watts or watts / volts = amps
Electric power = Volts X Amps, so 7 vols at 1 Amp will produce 7 watts 7 volts at 5 amps will produce 35 watts 7 volts at 15 amps will produce 105 watts and so on. Technically, there is not enough information (just volts) to answer your question but if you know the Amps, you can now figure the answer yourself.
To size a generator for a pump that draws 7 amps on each leg of a 240V circuit, you would calculate the total power consumption by multiplying the current (7A) by the voltage (240V) and the number of phases (2), which equals 3360 watts. Then, choose a generator with a rated power output greater than 3360 watts to ensure it can handle the load of the pump. A generator with at least a 4000-watt rating would be a suitable choice in this scenario.
Amount of electric current flowing through the vacuum. Watts: Amps multiplied by the power voltage drawn. Most upright cleaners are 7 to 12 amps. Many canister models are 12 amps. The maximum allowable amps that can be plugged into a household outlet is 12 amps.