You can tap off approximately 833 200 amp panels from a 250 kVA transformer. This calculation is based on dividing the kVA rating of the transformer by the current rating of the panel.
To calculate the amperage in the secondary side of a transformer, you can use the formula: Amps = kVA / (Volts x Sqrt(3)). For a 250 kVA transformer with a 220-volt secondary, the amperage will be approximately 660.4 Amps.
There are about 200 tiny black seeds on a strawberry. :)
No, the 300 watt low voltage transformer will not be able to power 150 watts of bulbs 250 feet away. The voltage drop over the distance will be significant and may not provide sufficient power to light up the bulbs effectively. It is recommended to use a higher wattage transformer or install additional transformers closer to the bulbs.
A carat is 200 milligrams, so 1.25 carats is 250 mg.
In excess of 200 mph at the peak, possibly as high as 250 mph.
A transformer is a power source. It will provide voltage to a device. Find the voltage rating on the device, say 24V. 250/24 = ~10A.
250% of 200= 250% * 200= 2.5 * 200= 500
200 - 250 litres.200 - 250 litres.200 - 250 litres.200 - 250 litres.
The power factor is only taken into consideration when the Kilowatts of a transformer is used.
250 = 25,000% 200 = 20,000%
What has to be taken into account is what the primary and secondary voltages of the transformer are. The second thing to consider is whether the transformer is a step up or step down transformer. Just putting 250 volts on a transformer could burn the windings if the transformer is not the correct voltage.
200 + 300 + 250 = 750
200 + 300 200 + 200 + 100
250 percent of 80 is 200.
250 (200+300=500%2=250)
To calculate the amperage in the secondary side of a transformer, you can use the formula: Amps = kVA / (Volts x Sqrt(3)). For a 250 kVA transformer with a 220-volt secondary, the amperage will be approximately 660.4 Amps.
-250