There are basically 4 major differences :-
1. The windings (both primary and secondary) of an ideal transformer are
considered to have zero resistance, hence the transformer is lossless.
2. There is no leakage flux in an ideal transformer.
3. The permiability of the core material in ideal transformer is considered to be
tending to infinity and hence the current needed to set up the flux in the
transformer is negligible.
4. There is zero hysterisis and eddy current losses in an ideal transformer.
In an ideal gas the molecules are assumed to be so small that they have no effect except as collision points.
Real gas molecules attract each other, and as the temperature gets near the boiling point the deviation in behavior becomes so great that the gas is now called a vapor. A perfect gas is an ideal gas which is also chemically non-reactive and is always in thermodynamic equilibrium.
Ideal transformer NO losses.....but ideal transformer copper loss &iron loss optain..
Ideal transformer is useful in understanding the practical transformer..i does't have losses...
What is the difference between ideal and actual cycle?
A: Transformer by itself goes not alter the phases the output can be in phase or out of phase depending how you look at it.
Resistance ideal transformer is the one having no core losses, infinite permeability no mmf needed to set up flux), windings are having no resistances or reactances.
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There are basically 4 major differences :- 1. The windings (both primary and secondary) of an ideal transformer are considered to have zero resistance, hence the transformer is lossless. 2. There is no leakage flux in an ideal transformer. 3. The permiability of the core material in ideal transformer is considered to be tending to infinity and hence the current needed to set up the flux in the transformer is negligible. 4. There is zero hysterisis and eddy current losses in an ideal transformer.
Ideal transformer is useful in understanding the practical transformer..i does't have losses...
ideal transformer is that which has no power losses.if any transformer transfer power to secondary without power loss then that call a ideal transformer
What is the difference between ideal and actual cycle?
In an ideal transformer, if the voltage is stepped up by a factor of x, then the current is stepped down by a factor of x. The end result is that the power, P=VI, is not changed. Again, this is in the ideal case.
'Zero voltage regulation' indicates that there is no difference between its 'no-load voltage' and its 'full-load voltage' -this is only the case for an 'ideal' transformer.
The ideal age difference should be between 4 and 7.
ideal transformer is that which has no power losses.if any transformer transfer power to secondary without power loss then that call a ideal transformer
For an ideal transformer, the voltage ratio is the same as its turns ratio.
A: Transformer by itself goes not alter the phases the output can be in phase or out of phase depending how you look at it.
A transformer can never be an ideal device to transfer power. Its inherent design has limitations caused by losses WITHIN the device itself.
Resistance ideal transformer is the one having no core losses, infinite permeability no mmf needed to set up flux), windings are having no resistances or reactances.