The kVA represents the power-handling capability of the transformer.So, if you were using a 1 kVA transformer at 110 volts, you could roughly estimate the maximum output to be 9 amps.
there is not an actual answer. it depends.
Ask your adjuster to provide documentation on how he/she arrived at the dollar amount. If you've done upgrades to the car (keyless entry, new stereo, front end work, etc) provide receipts and that will up your payout. Use nada.com as a good guide to the car's actual cash value and find classified ads, car lots ads to prove your price if you have to.
The sound can be very loud (lots of power) or it can be very soft (little/no power). It could vary, depending on how much force you use.
They professed to be, although how much actual belief their was in the things they penned is questionable.
The best way I know to find out is to call Graceland in Memphis, TN and ask them if they can provide you one and for how much?
The inductance of the transformer is much higher than the resistance of the transformer, resulting in very low real power losses (in watts), but some reactive power (vars).
Theoretically, yes; practically, no, as you won't have the power ratio to energize the primary with the same power as originally designed without a much larger than usual transformer and much larger than usual secondary power.
It tells us how much is the transformer utilised in a given process. For a rectifier,TUF =(D.c.power delivered to the load)/(power rating of transformer secondary)
The power in a 15 MVA (15000 KVA) transformer depends on the power factor. You did not specify the power factor, so I will assume a power factor of 0.92. Simply multiply MVA by PF and you get 13.8 MW.
If you mean how to use a resistance of so much power then it can be easily done through a step-down transformer which lowers the voltage supply and hence the power.
The three main reasons for the widespread use of transformer are power outage, more power supply and sustainability among consumers. This is what has made the transformers to be much appreciated.
Significantly-better cooling and insulation than air. This means that the transformer can operate at higher power ratings than an equivalent air-cooled transformer, and its internal electrical components can be much closer together, giving an oil transformer a much smaller footprint so it takes up far less space in a substation.
A: Absolutely a power transfer will have an internal loss of IR . for a power transformer the loss can be as much of 20% or more if other magnetics are involved like iron screw holding the lamination together. Usually brass is used to reduce that loss.
If the load current is too high, the power lost in the transformer windings will be too high and it will overheat. If the voltage is excessive, the power lost in eddy currents in the magnetic core will be too high and it will overheat.
75 watts
Yes, but you would need to remove the transformer that is used to match the antenna to the coax cable. This transformer will consume much of the transmitter power if left in the circuit.
Your question is rather like asking, "How much does a vehicle cost?" Is the vehicle a bicycle or a jumbo jet? So, the answer to your question depends on (a) what you mean by a 'power transformer' (there are various definitions)?, (b) what are its power and voltage ratings?, (c) is it single phase or three phase?, and (d) are you including the cost of its cooling system?