A generator consists of a 15-cm by 16-cm rectangular loop with 500 turns of wire spinning...

A generator consists of a 12-cm by 16-cmrectangular loop with 500 turns of wire spinning at...

A generator consists of a 12-cm by 16-cmrectangular loop with 500 turns of wire spinning at 60 Hz in a 25 mT uniform magnetic field. The generator output is connected to a series RCcircuit consisting of a 150 ? and a 35 ?F capacitor. 1)What is the average power delivered to the circuit?

An electric generator contains a coil of 125 turns of wire, each forming a rectangular loop...

An electric generator contains a coil of 125 turns of wire, each forming a rectangular loop 45.0 cm by 20.0 cm. The coil is placed entirely in a uniform magnetic field with magnitude B = 3.50 T and with B-> initially perpendicular to the coil's plane. What is the maximum value of the emf produced when the coil is spun at 1250 rev/min about an axis perpendicular to B->?

A 50 cm × 85 cm rectangular loop of wire is located in a region of...

A 50 cm × 85 cm rectangular loop of wire is located in a region of uniform magnetic field with a magnitude of B​0​​=3.32 Telsa, and oriented perpendicular to the wire loop. The wire is reshaped into a circular loop of radius r = 43 cm. What is the change in the magnitude of the the magnetic flux through the loop as a result of this change in shape? 2. A 60 cm×60 cm square loop of wire is placed...

A rectangular planar loop with 10 turns, and whose dimensions are 5 cm by 7 cm...

A rectangular planar loop with 10 turns, and whose dimensions are 5 cm by 7 cm is placed between the poles of a permanent magnet and turned by a small windmill at a rate of 150 revolutions per minute. The magnetic field between the poles is 0.75 T. Which of the following expressions represents the emf (in volts) as a function of time t in seconds produced by the generator?

A 10-turn coil of wire having a diameter of 1.0 cm and a resistance of 0.20...

A 10-turn coil of wire having a diameter of 1.0 cm and a resistance of 0.20 Ω is in a 1.0 mT magnetic field, with the coil oriented for maximum flux. The coil is connected to an uncharged 3.0 μF capacitor rather than to a current meter. The coil is quickly pulled out of the magnetic field. Afterward, what is the voltage across the capacitor? Hint: Use I =dq/dt to relate the net change of flux to the amount of...

A rectangular loop with sides a and b (b> a) consists of a wire whose resistance...

A rectangular loop with sides a and b (b> a) consists of a wire whose resistance can be neglected and has a mass of self-inductance L. The loop moves initially with speed of module v_0 along the longest side and passes through a region with zero magnetic field to another with uniform magnetic field of module B_0, perpendicular to its plane. Therefore, for this turn, determine: a) speed as a function of time. b) the position as a function of...

A 19.0 cm -diameter coil consists of 21 turns of circular copper wire 3.0 mm in...

A 19.0 cm -diameter coil consists of 21 turns of circular copper wire 3.0 mm in diameter. A uniform magnetic field, perpendicular to the plane of the coil, changes at a rate of 8.38×10−3 T/s . a) Determine the current in the loop. b) Determine the rate at which thermal energy is produced.

A 20.8 cm -diameter coil consists of 22 turns of circular copper wire 2.8 mm in...

A 20.8 cm -diameter coil consists of 22 turns of circular copper wire 2.8 mm in diameter. A uniform magnetic field, perpendicular to the plane of the coil, changes at a rate of 8.50×10^?3 T/s . a) Determine the current in the loop b) Determine the rate at which thermal energy is produced.

A 26.0 cm diameter coil consists of 24 turns of cylindrical copper wire 2.40 mm in...

A 26.0 cm diameter coil consists of 24 turns of cylindrical copper wire 2.40 mm in diameter. A uniform magnetic field, perpendicular to the plane of the coil, changes at a rate of 6.50e-3 T/s. Determine the current in the loop in milli-amps (the resistivity for copper is 1.72e-8Ω.m). answer in mA

An inventor generates electricity using a water wheel to rotate a loop of wire in the...

An inventor generates electricity using a water wheel to rotate a loop of wire in the magnetic field of a set of neodymium magnets. The arrangement of magnets produces a uniform field of 0.35 T in the region of the square loop of wire. The wire is a square 20 cm on a side. There are 3 coils in the square loop of wires. The wire loop is geared to turn 150 times for each turn of the water wheel,...