The number of amps required to power a jumper house (bounce house) typically depends on the size and specifications of the blower used to inflate it. Most bounce house blowers operate on standard 110-120 volts and draw between 10 to 15 amps. Therefore, it's important to ensure that the electrical source can handle the load, usually requiring a dedicated circuit to avoid tripping breakers. Always check the manufacturer's guidelines for specific power requirements.
watts are equal to amps times volts.
Watts = Volts x Amps x Power Factor Maximum Power Factor is 1 for resistive load.
If you know the voltage you can calculate the amps. . Ampere I = power P / voltage V .
The forumla for power is: Power (watts) = Volts x Amps Therefore: Amps = Power/Volts So the answer to your question depends on the voltage in use. @230v: 0.14 Amps @24v: 1.33 Amps @12v: 2.66 Amps
The unit of power is expressed in watts, and the product of current (Amps) and voltage (volts) is power there fore if you multiply the amps and the volts give watts. so 20 x 240 will give you a 4800 watts of power.
amps like.. amplifiers? it depends on how many speakers you have. or amps like.. current draw? again. depends on your power needs, your power amps... ect
Aprox 12 amps.
watts are equal to amps times volts.
12 amps of electricity.
Most hand power tools are between 4 and 15 amps. Some professional tools are greater amperage.
Watts = Volts x Amps x Power Factor Maximum Power Factor is 1 for resistive load.
101 amps for chassis wiring and 37 amps for power transmission. This is for short lengths of wire.
Depends on the voltage:P=VI where P is the power in Watts, V is voltage and I is current (amps).
If you know the voltage you can calculate the amps. . Ampere I = power P / voltage V .
It depands on the power of the loudspeakers.
"Power (/Watts) = Current (/amps) * Potential Difference (/volts)" Therefore, power = 7 * 12 = 84 W
A btu is a measure of energy, but 18,000 btu per hour is a power of 5.22 kW, which is 5220/220 amps, 24 amps.