Given a generator with 566 circular loops of radius 0.11 meters made of 2.1 mm diameter copper wire, with an applied magnetic field of 0.33 T that spins at 847 rev/s.
a) What is the Vrms produced?
b) If the generator supplies an average of 46 MW to a town 37 km away through 2 wires with a linear resistance of 0.28 Ω/km, what is the percentage of power loss in the transmitting wires if the power is not transformed?
c) What would the number of turns ratio be in a transformer if we were to step the voltage to 611 kV? Is this a step-up or step-down transformer?
d) What is the percentage of power loss in the wires if we transform it before transmitting it along the wires?
friends answer start from here 1(d) is uploaded in first sequence
Given a generator with 566 circular loops of radius 0.11 meters made of 2.1 mm diameter copper wi...
A generator has 534 circular loops with a diameter of 0.234 meters. The magnetic field applied through the region where our loops will spin is 0.456 T. It outputs an average of 66 MW. Assume the generator circuit is the source as described above in an AC-RL circuit where R is the equivalent resistance Req and the inductor L is an ideal transformer .Power is transmitted to a town 33 km away through 2 wires with a linear resistance rating...
A generator has 534 circular loops with a diameter of 0.234 meters. The magnetic field applied through the region where our loops will spin is 0.456 T. It outputs an average of 66 MW. Assume the generator circuit is the source as described above in an AC-RL circuit where R is the equivalent resistance Req and the inductor L is an ideal transformer. 8. If the wire loops spin at 9.33x104 rev/min, what is the Vmax produced by the generator?...
Please answer all the questions!!! A generator has 534 circular loops with a diameter of 0.234 meters. The magnetic field applied through the region where our loops will spin is 0.456 T. It outputs an average of 66 MW. Assume the generator circuit is the source as described above in an AC-RL circuit where R is the equivalent resistance Reg and the inductor L is an ideal transformer. 8. If the wire loops spin at 9.33x104 rev/min, what is the...
University Physics II: Electricity and Magnetism Class Textbook: Katz - Physics for Scientists and Engineers Questions may involve the following topics: Magnetic Fields and Forces/Faraday's Law of Induction/Inductors and AC Circuits Need help with Questions provided by pictures attached below: (Thank you so much in advance!) 3 of 4 A generator has 534 circular loops with a diameter of 0.234 meters. The magnetic field applied through the region where our loops will spin is 0.456 T. It outputs an average...