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1.3.1powerequation

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The power equation of a transformer
A transformer has 1000 turns on the primary winding and 200 on the secondary. If the applied voltage is 250 V, calculate the output voltage of the transformer. V 1 / N1 = V2 / N2
A transformer has 1000 turns on the primary winding and 200 on the secondary. If the applied voltage is 250 V, calculate the output voltage of the transformer. V 1 / N1 = V2 / N2 V2 = V1x N2 / N1
A transformer has 1000 turns on the primary winding and 200 on the secondary. If the applied voltage is 250 V, calculate the output voltage of the transformer. V 1 / N1 = V2 / N2 V2 = V1x N2 / N1 V2 = 250 x 200 / 1000
A transformer has 1000 turns on the primary winding and 200 on the secondary. If the applied voltage is 250 V, calculate the output voltage of the transformer. V 1 / N1 = V2 / N2 V2 = V1x N2 / N1 V2 = 250 x 200 / 1000 V 2 = 50 volts

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1.3.1powerequation

  • 1. The power equation of a transformer
  • 2. A transformer has 1000 turns on the primary winding and 200 on the secondary. If the applied voltage is 250 V, calculate the output voltage of the transformer. V 1 / N1 = V2 / N2
  • 3. A transformer has 1000 turns on the primary winding and 200 on the secondary. If the applied voltage is 250 V, calculate the output voltage of the transformer. V 1 / N1 = V2 / N2 V2 = V1x N2 / N1
  • 4. A transformer has 1000 turns on the primary winding and 200 on the secondary. If the applied voltage is 250 V, calculate the output voltage of the transformer. V 1 / N1 = V2 / N2 V2 = V1x N2 / N1 V2 = 250 x 200 / 1000
  • 5. A transformer has 1000 turns on the primary winding and 200 on the secondary. If the applied voltage is 250 V, calculate the output voltage of the transformer. V 1 / N1 = V2 / N2 V2 = V1x N2 / N1 V2 = 250 x 200 / 1000 V 2 = 50 volts