The armature of a 60 Hz ac generator rotates in a 0.12 T B-field. If the...

A simple generator has a square armature 5.0 cm on a side. The armature has 70...

A simple generator has a square armature 5.0 cm on a side. The armature has 70 turns of 0.59-mm-diameter copper wire and rotates in a 0.700-T magnetic field. The generator is used to power a lightbulb rated at 12.0 V and 25.0 W. Part A: At what rate should the generator rotate to provide 12.0 V to the bulb? Consider the resistance of the wire on the armature. Express your answer to two significant figures and include the appropriate units.

An ac generator has a coil with 2500 turns and area 4.2x10-3 m^2 the coil rotates...

An ac generator has a coil with 2500 turns and area 4.2x10-3 m^2 the coil rotates in magnetic field of .1T and generates an emf of 240Vrms what is the max magnetic flux through coil ? What is the frequency of generator ?

In each of the following situations, a coil rotates in a uniform magnetic field. Rank the...

In each of the following situations, a coil rotates in a uniform magnetic field. Rank the coils in order of the maximum value of the alternating emfinduced in the coil, from greatest value to smallest value. (i) A coil with 500 turns and area 2.00 * 10–3 m2 rotates at 50.0 rad/s in a magnetic field of magnitude 5.00 * 10–3 T. (ii) A coil with 400 turns and area 2.00 * 10–3 m2 rotates at 70.0 rad/s in a...

A bicycle generator rotates at 171 rad/s, producing an 16.5 V peak emf. It has a...

A bicycle generator rotates at 171 rad/s, producing an 16.5 V peak emf. It has a 1.00 by 3.00 cm rectangular coil in a 0.67 T field. ε0 = 16.5 V ω = 171 rad/s B = 0.67 T How many turns are in the coil?

You have a simple electric generator power by turbines in a dam. The generator has 600...

You have a simple electric generator power by turbines in a dam. The generator has 600 loops in its circular coil with radius 0.5 m. The magnetic field used in the generator is 0.70 T. (a) If the push of the water rotates the coil loop at a rate of 1 rotation per minute, what is the peak voltage output of the generator? (b) If you want to use this generator at the rotation rate found in the previous part...

Faraday's Law III The armature of a small generator consists of a flat, square coil with...

Faraday's Law III The armature of a small generator consists of a flat, square coil with N turns and sides with length L. The coil rotates in a magnetic field of magnitude B with a constant angular speed ω.   a) Write an expression for the flux ΦB(t) through the coil as a function of time. Assume the plane of the coil is perpendicular to the magnetic field at time t=0. (Your answer should be in terms of ω, N, B...

A generator is to be built so that it runs at a f = 60.0-Hz frequency...

A generator is to be built so that it runs at a f = 60.0-Hz frequency and deliver a peak output of 5900 Volts. a) What is the rms voltage of this generator? b) If its coil has 300 turns each of radius 50 cm, what is the area per turn? c) What is the magnitude of the magnetic field needed to meet the specifications? Suppose the generator is to rely on the Earth’s B field instead. The field has...

A three-phase Wye-connected synchronous generator is rated 3600 rpm, 200kVA, 480V, 60 Hz. The generator’s armature...

A three-phase Wye-connected synchronous generator is rated 3600 rpm, 200kVA, 480V, 60 Hz. The generator’s armature winding resistance is RA = 0.03Ω and the synchronous reactance XS is 0.25Ω. The rotational losses are 6kW, the core losses are 4kW, and the stray losses are 1% of the output real power. The generator is delivering 200kVA power at 0.85 pf lagging at rated voltage. Taking the phase voltage at the output as a reference, answer the following questions. How many poles...

An electric generator is designed to produce a maximum emf of 220 V while rotating with...

An electric generator is designed to produce a maximum emf of 220 V while rotating with an angular speed of 3600 rpm. Each coil of the generator has an area of 0.027 m2. a.) If the magnetic field used in the generator has a magnitude of 0.050 T, how many turns of wire are needed? b.) During the rotation of the coils, the magnetic flux through the coils will alternately be increasing and decreasing. (Why?) While the flux is increasing,...

A balanced, symmetrical, round-rotor, 3-phase, 60 Hz, 2-pole, 100MVA, 13.8kV, synchronous generator is being driven at...

A balanced, symmetrical, round-rotor, 3-phase, 60 Hz, 2-pole, 100MVA, 13.8kV, synchronous generator is being driven at synchronous speed. During tests, an IFNL (field current required to produced rated terminal voltage under open circuit) of 150A and an IFSC (field current required to produced rated armature current under short circuit) of 100A were obtained. Use a linear model and neglect the armature resistance for the following calculations. a) What field current is needed to maintain rated terminal voltage when the generator...