When a voltage of 100 volts at 50 Hz is applied to an impedance coil A, the current taken is 8 A and the power is 120 watts. When applied to an impedance coil B, the current is 10 A and the power is 500 watts. What current and power will be taken when 120 V, 60 Hz is applied when the two coils are connected in parallel?

icon
Related questions
Question

When a voltage of 100 volts at 50 Hz is applied to an impedance coil A, the current
taken is 8 A and the power is 120 watts. When applied to an impedance coil B, the
current is 10 A and the power is 500 watts. What current and power will be taken
when 120 V, 60 Hz is applied when the two coils are connected in parallel?

When a voltage of 100 volts at 50 Hz is applied to an impedance coil A, the current
taken is 8 A and the power is 120 watts. When applied to an impedance coil B, the
current is 10 A and the power is 500 watts. What current and power will be taken
when 120 V, 60 Hz is applied when the two coils are connected in parallel?
Transcribed Image Text:When a voltage of 100 volts at 50 Hz is applied to an impedance coil A, the current taken is 8 A and the power is 120 watts. When applied to an impedance coil B, the current is 10 A and the power is 500 watts. What current and power will be taken when 120 V, 60 Hz is applied when the two coils are connected in parallel?
Expert Solution
trending now

Trending now

This is a popular solution!

steps

Step by step

Solved in 4 steps

Blurred answer
Similar questions