A 25 cm × 25 cm square loop has a resistance of 0.11 Ω . A...

1. (A) A 35 cm * 35 cm square loop has a resistance of 0.10 Ω....

1. (A) A 35 cm * 35 cm square loop has a resistance of 0.10 Ω. A magnetic field perpendicular to the loop is B = 4t - 2t 2, where B is in Tesla and t is in seconds. What is the current in the loop at t = 0.0 s, t = 1.0 s, and    t = 2.0 s? (B) You’re asked to build an LC circuit that oscillates at 20 kHz. In addition, the maximum current...

An 8.0cm× 8.0 cm square loop is halfway into a magnetic field that is perpendicular to...

An 8.0cm× 8.0 cm square loop is halfway into a magnetic field that is perpendicular to the plane of the loop. The loop's mass is 10 g and its resistance is 0.040 Ω . A switch is closed at t =0s, causing the magnetic field to increase from 0 to 1.0 T in 0.010 s. a) What is the induced current in the square loop? bWith what speed is the loop "kicked" away from the magnetic field? Hint: What is...

A 5.0-cm-diameter coil has 20 turns and a resistance of 0.50 Ω. A magnetic field "parallel"...

A 5.0-cm-diameter coil has 20 turns and a resistance of 0.50 Ω. A magnetic field "parallel" to the coil's axis is B = 0.020t + 0.010t2, where B is in tesla and t is in seconds. a) Find an expression for the induced current I(t) as a function of time. b) Evaluate I at t = 10 s and t = 20 s.

A circular coil of 312 winds of wire (radius = 7.0 cm, resistance = 7.4 Ω)...

A circular coil of 312 winds of wire (radius = 7.0 cm, resistance = 7.4 Ω) is placed in a uniform magnetic field that is perpendicular to the plane of the loop. The magnitude of the field changes with time according to ? = 90sin(7?) mT, where ? is measured in seconds. Determine the magnitude of the current induced in the loop at ?=?/7 s.

The rotating loop in an AC generator is a square 13.0 cm on a side. It...

The rotating loop in an AC generator is a square 13.0 cm on a side. It is rotated at 80.0 Hz in a uniform field of 0.800 T. Calculate the following quantities as functions of time t, where t is in seconds. (a) the flux through the loop mT·m2 (b) the emf induced in the loop V (c) the current induced in the loop for a loop resistance of 2.00 Ω A (d) the power delivered to the loop W...

The rotating loop in an AC generator is a square 13.0 cm on a side. It...

The rotating loop in an AC generator is a square 13.0 cm on a side. It is rotated at 75.0 Hz in a uniform field of 0.800 T. Calculate the following quantities as functions of time t, where t is in seconds. (a) the flux through the loop mT·m2 (b) the emf induced in the loop V (c) the current induced in the loop for a loop resistance of 2.00 Ω A (d) the power delivered to the loop W...

A loop of wire has a resistance 362 Ohms and an area of 2.91 m2 ....

A loop of wire has a resistance 362 Ohms and an area of 2.91 m2 . The wire loop is located in a magnetic field which is perpendicular to the plane of the loop. The magnetic field has the following time dependence: B=B0 exp(-b*t) where t is time. b =0.45Hz. The current is 0.00631 Amps at time 0.79s. Find B0 in units of Tesla. (Note that both B and B0 are magnitudes i.e. positive.)

A 29-turn circular coil of radius 3.40 cm and resistance 1.00 Ω is placed in a...

A 29-turn circular coil of radius 3.40 cm and resistance 1.00 Ω is placed in a magnetic field directed perpendicular to the plane of the coil. The magnitude of the magnetic field varies in time according to the expression B = 0.010 0t + 0.040 0t2, where B is in teslas and t is in seconds. Calculate the induced emf in the coil at t = 4.60 s.

A circular coil of radius 4.0 cm, resistance 0.30 Ω, and 100 turns is placed in...

A circular coil of radius 4.0 cm, resistance 0.30 Ω, and 100 turns is placed in a uniform magnetic field at an angle of 30° with the plane of the coil. The magnitude of the field changes with time according to ?(?)=20?^(−0.3?) (in Tesla, t is time in seconds). What is the value of the current induced in the coil at the time t = 2.0 s?

A square loop of side 5 cm is placed with the nearest side 7 cm from...

A square loop of side 5 cm is placed with the nearest side 7 cm from a long wire carrying a current that varies with time at a constant rate of 7 A/s. (Assume the loop and the wire lie in the same plane. Further assume I = 0 at t = 0. Enter the magnitudes.) (a) Use Ampère's law and find the magnetic field from the current in the wire as a function of time and distance r from...