The rotating loop in an AC generator is a square 10.0 cm on each side. It is rotated at 60.0 Hz in a uniform magnetic field of 0.800 T. Calculate (a) the flux through the loop as a function of time, (b) the emf induced in the loop, (c) the current induced in the loop for a loop resistance of 1.00 Ω, (d) the power delivered to the loop, and (e) the torque that must be exerted to rotate the loop.

Q: An AC generator is to have a maximum output of 300 V. Each coil has an area of 0.105 m2 and a…

A: Vmax=NBAω     N=VmaxBA2πf  =300 V0.746 T0.105 m22π43.0 Hz=14

Q: (A) 2.25 (B) 5. The armature of a simple AC generator consists of a square loop of wire with one…

A:

Q: The armature of an AC generator consists of 10 turns of wires, with an area of 0.05 m2 each, having…

A: We are aware that an AC generator's armature is made up of 10 turns of wire, each with a surface…

Q: The 335-kV ac electricity from a power transmission line is fed into the primary winding of a…

A:

Q: In a model AC generator, a 501 turn rectangular coil 8.0 cm by 28 cm rotates at 120 rev/min in a…

A: a. 81.79 V b. 77.19 V c. 0.125 s Given: N = 501 turns A = 0.08 x 0.28 = 0.0224 m^2 B = 0.58T…

Q: Consider an AC generator with a rotating square loop with a side of 0.21 m length. If it rotates…

A:

Q: 8. (a) A 40.4 mH inductor is connected as in the figure to an ac generator with Em = 30.0 V. What is…

A:

Q: A coil with loops of area 0.0120 m^2 rotates at 60.0 Hz through a B field of 0. 125 T. How many…

A:

Q: In a model AC generator, a 495 turn rectangular coil 10.0 cm by 23 cm rotates at 123 rev/min in a…

A: Given that the value of the number of turns and area and angular velocity and also given the value…

Q: A 6 pole DC wave wound generator has 26 armature conductors with flux per pole is 21 mWb and the…

A:

Q: The maximum value of the emf in the primary coil (Np = 1200) of a transformer is 165 V. (a) What is…

A:

Q: Use the worked example above to help you solve this problem. An AC generator consists of eight turns…

A:

Q: The rotating loop in an AC generator is a square 11.0 cm on a side. It is rotated at 75.0 Hz in a…

A:

Q: A long solenoid has n=900 turns per meter and a current ? = 3.2 sin(??). Inside the solenoid with a=…

A: n= 900 turn , a= 0.5 m Nc= 100 turns, b= 0.2 m I= 3.2 sin wt

Q: An AC generator consists of eight turns of wire, each having area A = 0.0860 m2, with a total…

A: Given that: The area is A=0.0860 m2 The resistance is R=10.8 Ω The frequency is f=61.5 Hz The…

Q: The current through a N = 175-turn coil with cross-sectional area, A = 0.0424 m², is decreasing at a…

A: The magnitude of the emf induced in a coil is given by the equation, ε=Ldidt…

Q: The maximum value of the emf in the primary coil  (NP = 1600)  of a transformer is 215 V. (a) What…

A: A) 87.344B) 0.40625Explanation:

Q: A physics student observes that the current in a coil of conducting wire goes from i, = 0.200 A to…

A: Given: Inductance L = 4mH or 0.004 H                               i1= 0.200 A…

Q: The maximum value of the emf in the primary coil (Np = 1500) of a transformer is 125 V. (a) What is…

A: Np = 1500 Ns = 600 Vp = 125 V

Q: |Problem 1: An inductor with L= 4.5 H is in a closed circuit with I = 0.35 A (see the diagram). When…

A: Given:The inductance: L = 4.5 H;The current flowing in the circuit initially: Ii = 0.35 A;The…

Q: The current in a coil of inductance 0.2 H changes from 5 A to 2 A in 0.5 sec. The magnitude of the…

A: Given, Inductance, L=0.2H Change in current, ∆i=5-2A∆i=3A Time, ∆t=0.5sec Induced emf in the coil is…

Q: An AC generator is to have a maximum output of 308 V. Each coil has an area of 0.108 m2 and a…

A: Given, Emf of the AC generator, ε= 308 V area, A = 0.108 m2 resistance, R = 15.4 Ω the magnetic…

Q: (a) A coil of conducting wire carries a current of i(t) = 15.0 sin(1.05 x 10³t), where i is in…

A: Step 1:The current is i(t)=15sin(1.05×103t)The mutual inductance of the coil is 190μHStep 2:a)The…

Q: Problem 10: A 75 turn, 10.5 cm diameter coil of an AC generator rotates at an angular velocity of…

A: Given that  N= 75  d= 10.5 cm  B= 1.4 T  w= 6.5 rad/s  t= 0 initially

Q: A change in current produces change in the electromagnetic field, which induces a voltage across the…

A: Solution: Given that current, i(t) = 2t^3 A, t inductor L = 5 H

Q: The current in one coil decreases from 4.2 A to zero in 0.80-s. A 0.035-V emf is induced in a…

A: In the given question, The current in coil 1 decreases from 4.2A to zero. in 0.80s. An emf of 0.035…

Q: A 2.00-H inductor carries a steady current of 0.500 A. When the switch in the circuit is opened, the…

A:

Q: A secondary coil is located inside a primary coil. The coils contain no ferromagnetic core. A) The…

A:

Q: The rotating loop in an AC generator is a square 10.0 cm on a side. It is rotated at 85.0 Hz in a…

A:

Q: The rotating loop in an AC generator is a square 11.0 cm on a side. It is rotated at 75.0 Hz in a…

A: Given, The side of the rotating loop is square, A = 11 cm = 0.11 m frequency of the rotation, f =…

Q: Please box answers

A: The rotating loop in an AC generator is a square 10cm on a side.

Q: The rotating loop in an AC generator is a square 15.0 cm on a side. It is rotated at 55.0 Hz in a…

A:

Q: The current in one coil decreases from 4.2 A to zero in 0.80-s. A 0.035-V emf is induced in a…

A:

Q: An inductor is built using a circular coil that is 0.50 m long, has a 10.0 cm radius, and consists…

A: (a)The self-inductance of the coil,

Q: An AC generator is to have a maximum output of 340 V. Each coil has an area of 0.132 m2 and a…

A: SOlution: given that E = 340 V A = 0.132 m2 R = 16.5 ohm B = 0.766 T f = 39.9 Hz

Q: An AC generator has 50 loops of wire, with an area of 42 cm2, rotating at a frequency of 50 Hz in a…

A: Number of loops=50 Area=42cm² Frequency=50Hz Magnetic field=0.54T

Q: In a model AC generator, a 495 turn rectangular coil 8.0 cm by 22 cm rotates at 120 rev/min in a…

A: Given data: Number of turns is N=495Area of the rectangular coil is Angular frequency Magnetic field…

Q: EXERCISE HINTS: GETTING STARTED I'M STUCK! An AC generator is to have a maximum output of 329 V.…

A: EXERCISE Given that The maximum output voltage,εmax=329 V Area of the coil,A=0.110 m2…