The efficiency of a transformer will be maximum when

copper losses = hysteresis losses
hysteresis losses = eddy current losses
eddy current losses = copper losses
copper losses = iron losses

The correct answer is: A. copper losses = hysteresis losses.

The efficiency of a transformer is the ratio of the output power to the input power. It is a measure of how well the transformer converts electrical energy from one form to another. The efficiency of a transformer is affected by a number of factors, including the design of the transformer, the quality of the materials used, and the operating conditions.

The copper losses in a transformer are caused by the resistance of the copper windings. The hysteresis losses are caused by the magnetic flux reversals in the core of the transformer. The eddy current losses are caused by the circulating currents in the core of the transformer.

The efficiency of a transformer is maximum when the copper losses are equal to the hysteresis losses. This is because the copper losses and the hysteresis losses are the two main sources of loss in a transformer. When the copper losses are equal to the hysteresis losses, the total loss in the transformer is minimized.

The efficiency of a transformer can be improved by using high-quality materials, by designing the transformer to minimize losses, and by operating the transformer at the correct load.

Here is a brief explanation of each option:

  • Option A: Copper losses = hysteresis losses. This is the correct answer. When the copper losses are equal to the hysteresis losses, the total loss in the transformer is minimized.
  • Option B: Hysteresis losses = eddy current losses. This is not the correct answer. The hysteresis losses and the eddy current losses are two different types of losses. They are not equal to each other.
  • Option C: Eddy current losses = copper losses. This is not the correct answer. The eddy current losses and the copper losses are two different types of losses. They are not equal to each other.
  • Option D: Copper losses = iron losses. This is not the correct answer. The copper losses and the iron losses are two different types of losses. They are not equal to each other.
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