A single loop of wire of resistance R is in the form of a rectangle of...

A single loop of wire of resistance R is in the form of a rectangle of...

A single loop of wire of resistance R is in the form of a rectangle of width w and length L, and its plane is perpendicular to a uniform magnetic field of magnitude B. If the rectangular loop is turned over (that is, it is rotated 180o about one of its sides) in time Δt, how much total electric charge ΔQ will flow through any given cross-section of the wire?          

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 single loop of aluminum wire, lying flat in a plane, has an area of 8.00...

A single loop of aluminum wire, lying flat in a plane, has an area of 8.00 cm2 and a resistance of 2.50 Ω. A uniform magnetic field points perpendicular to the plane of the loop. The field initially has a magnitude of 0.500 T, and the magnitude increases linearly to 2.00 T in a time of 2.00 s. What is the induced current (in mA) in the loop of wire over this time?

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 square loop and a rectangular loop are each made from the same length of wire....

A square loop and a rectangular loop are each made from the same length of wire. Each loop contains a single turn, and carries the same amount of current. The loops are placed in the same uniform magnetic field. The long sides of the rectangle are four times as long as its short sides. Determine the ratio of the maximum torque on the square loop to the maximum torque on the rectangular loop. (Enter your answer as a fraction, e.g.,...

A single loop of wire in the shape of a square with sides of length l=25.0...

A single loop of wire in the shape of a square with sides of length l=25.0 cm is sitting in a uniform magnetic field of 1.30 T. The field points out of the page, and the the loop is in the plane of the page with sides parallel to the x and y axes. (a) If a current of 3.70 A flows through the loop, what is the magnitude of the magnetic force on a single side of the loop?...

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 rectangle of perfectly conducting wire having sides a and b , a mass M and...

A rectangle of perfectly conducting wire having sides a and b , a mass M and a self-inductance L, moves with an initial velocity v in its plane, directed along its longest side, from a region with B= 0 to a region with a magnetic field B=Bo which is uniform and perpendicular to the plane of the rectangle. Describe the motion of the rectangle as a function of time, (i.e. find, and solve the equation of motion for the rectangle)

Part of a single rectangular loop of wire with dimensions shown in the (Figure 1) is...

Part of a single rectangular loop of wire with dimensions shown in the (Figure 1) is situated inside a region of uniform magnetic field of 0.470T . The total resistance of the loop is 0.610? . Part A Calculate the force required to pull the loop from the field (to the right) at a constant velocity of 6.20m/s . Neglect gravity.

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.