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At what voltage? If you know the voltage then, to get the amps those kilovolt-amps contain, you simply divide the kilovolt-amps by the voltage.
If you know the voltage you can calculate the amps. . Ampere I = power P / voltage V .
Depends on the voltage. AMPS X VOLTS = WATTS 250 Watts at 12 V would be about 21 Amps, while 250 watts at 120 volts would be 2.1 amps.
At what voltage? When you know the voltage then, to get the amps those kilovolt-amps contain, you simply divide the kilovolt-amps by the voltage.
There is no direct conversion between the two. You need to know voltage to calculate amps. This is the equation: P = V * I Where: P = Watts V = Volts I = Amps
Need to know what the voltage of the motor is.
To answer this you have to know how many volts will be used. If you know the voltage then you can calculate the current by dividing voltage into wattage. For example; an electric heater rated at 700 watts when plugged into a 115 v outlet will draw 700/115 = 6.08 amps of current.
You also need to know the Voltage and wattage. Amps= Watts / Volts. Try this iPhone App "Watts2Amps"
Ohm's Law requires you know two of three parameters to calculate the third.Volts = Amps x OhmsYou need to know current flowing through resistance to calculate voltage drop.Read more: What_will_be_the_voltage_drop_across_each_of_the_following_resistors_A_160_Ohms_B_100_Ohms_C_82_Ohms_D_120_Ohms.
You need to know the voltage. Volts x Amps = VA. The K just indicates 1,000 x VA.
Ohm's Law requires you know two of three parameters to calculate the third.Volts = Amps x OhmsYou need to know current flowing through resistance to calculate voltage drop.Read more: What_will_be_the_voltage_drop_across_each_of_the_following_resistors_A_160_Ohms_B_100_Ohms_C_82_Ohms_D_120_Ohms.
Amperage (coulombs/sec sort of like volume) and wattage (power) are independent of each other if you know the voltage you can calculate amps but they are not the same thing. 3000 watts/X volts=amps ex. 3000 watts/110v=27.28 amps