5
5KW
VA and Watts are different names for the same thing but denote different uses. Watts is actual power and VA would be used for potential power. So 5kVA = 5000 Watts. kVA = volts x amps / 1000 kW = volts x amps x power factor / 1000
To find amps if watts and volts are known, use the formula; watts / volts = amps or 5000 / 240 = 20.83 amps
The formula you are looking for is I = W/E, Amps = Watts/Volts. Amps = 5000/230 =21.7 amps. The wire size to run this heater would be a #10 copper conductor. The supply breaker would be a two pole 30 amp breaker.
As a rule of thumb 5-6 watts per person
Welding is done with a high current and low voltage. The voltage of a 500 amp welder might be 10 v so the power rating in that case would be 5000 watts.
5KW
5000 Watts if it runs ideally. It really depends on the generator's efficiency. Lets say, if its working on 80% efficiency, it'll provide with 0.8 * 5000 watts of electric power.
VA and Watts are different names for the same thing but denote different uses. Watts is actual power and VA would be used for potential power. So 5kVA = 5000 Watts. kVA = volts x amps / 1000 kW = volts x amps x power factor / 1000
Micheal Jackson is a hip hop and r&b singer.And he made the song"5000 watts"
Not if the furnace exceeds 5000 watts.
To find amps if watts and volts are known, use the formula; watts / volts = amps or 5000 / 240 = 20.83 amps
P, the power in kW (kilowatts) is related to V (the supply voltage) and I (the current in amps) by the Power Law: P = V x I So, to get the current: I = P / V If you have something that uses 5 kW (which is the same as 5000 watts) and the source voltage is 120 V, then the current drawn in amps = 5000 / 120 = 41.67 amps.
Look for a professional styled hair dryer since they go to 5000-Watts. Commercial hair dryers tend to not exceed 2000-Watts.
A 5000 BTU air conditioner works on 1465 watts. If the BTU, 5000, is multiplied by .293071, the exact amounts are given. However, this does not display the amount of watts utilized by the air conditioner. The voltage and amperes would need to be known in order to figure the watts during usage.
Yes, you can but the wattage output rating of the heater will not be reached due to the lower applied voltage. For example if the heater is 5000 watts at 277 volts, the current is I = W/E 5000/277 = 18 amps. The resistance of the heater is R = W/I (squared) = 5000/18 x 18 (324) = 15.43 ohms. Applying 220 volts on the same heater whose resistance is 15.43 ohms results in this new heater wattage rating. W = E (squared)/R = 220 x 220 (48400)/15.43 = 3137 watts. W = watts, I = amperage, R = resistance in ohms and E = voltage.
The formula you are looking for is I = W/E, Amps = Watts/Volts. Amps = 5000/230 =21.7 amps. The wire size to run this heater would be a #10 copper conductor. The supply breaker would be a two pole 30 amp breaker.