A counterclockwise current I is induced in the loop. The magnetic force FR on the bar carrying this current opposes the motion. Figure 30.8 (a) A conducting bar sliding with a velocity v along two conducting rails under the action of an applied force F Because of the current in the bar, there is a magnetic force F,on the bar in the direction opposite to the applied force. (b) The equivalent circuit diagram for the setup shown in (a). R F, app R |El = Blv app a I * * x x x B,n a 'in R Figure P30.18

Q: E. One hundred turns of (insulated) copper wire are wrapped around a wooden cylindrical core of…

A: Given : Number of turns (N) = 100 Area (A) = 1.20 x 10-3 m2 Resistance (R) = 13 Ω Initial magnetic…

Q: A circular loop of radius 12 cm carries a current of 16 A. A flat coil of radius 0.68 cm, having 50…

A: Given: Radius of circular loop (r) = 12 cm. Current (i) = 16 A. Radius of flat coil (r’) = 0.68 cm.…

Q: At a particular point on Earth, the magnitude of the Earth's magnetic field is 4.00 ✕ 10−5 T. At…

A: Given data: The magnitude of magnetic field is B=4.00✕10−5 T. The area of loop is A=30 cm2.

Q: An infinite straight wire carries current I1 = 4.3 A in the positive y-direction as shown. At time t…

A: As per guidelines we are suppose to do only three subpart from multipart questions, and one from…

Q: In the figure below, a metal bar sitting on two parallel conducting rails, connected to each other…

A:

Q: Consider the situation shown in the figure below, where a loop of wire is being pulled away from a…

A:

Q: A conducting bar of length ℓ moves to the right on two frictionless rails as shown. A uniform…

A:

Q: A 16-cm-diameter circular loop of wire is placed in a 0.50-T magnetic field. (a) When the plane of…

A: Given:radius of circular loop, r=d2 = 8 cmApplied magnetic field, B =0.50 TSolution:We know that the…

Q: A spatially uniform magnetic field is restricted in a circular sub- region from a distance of 4.51…

A:

Q: Figure P30.31 Is a cross -sectional view of a coaxial cable. The center conductor is surrounded by a…

A: I1= 1.00 A  I2= 3.00 A  d = 1 mm = 1 x 10-3 m To find = Magnitude and direction of magnetic field at…

Q: An ?=45.0 cm wire is moving to the right at a speed of ?=7.90 m/s across two parallel wire rails…

A:

Q: The long wire AB carries a current that is increasing at a constant rate di/dt . B (a) At the…

A: Aalysing the question,  In this question we are given that the current is increasing at a constant…

Q: A circular coil of radius 0.66 m is placed in a time-varying magnetic field B(t) = (4.80 x 10-4) sin…

A:

Q: A conducting bar of length l moves to the right on two frictionless rails as shown in Figure P31.34.…

A: magnetic field,B=0.3T Resistance,R= R = 9.00 Ohm length of bar,l=0.35m

Q: hat is the magnetic flux Φ1(t) through a single turn of the solenoid? (c) Suppose that the current…

A: Given:- The figure is given as Find:- (a) Suppose that the current in the solenoid is I(t). Within…

Q: A uniform magnetic field of magnitude 0.50 T is parallel to the x-axis. A square coil of side 10.0…

A:

Q: (a) A conducting loop in the shape of a square of edge length { = 0.380 m carries a current I = 8.60…

A:

Q: A uniform magnetic field passes through a surface of area ?A as shown in the figure. If the area…

A:

Q: N turns radius r he radius of the coil is 0.02 m, and the coil has 11 turns. At a particular instant…

A: Given data: Radius of the coil, r=0.02 m Number of turns, N=11 Current, I=6.0 A Speed of the wire,…

Q: A rectangular toroid with inner radius R1 = 7.0 cm, outer radius R2 = 9.0 cm , height h = 3.0 , and…

A: (a) The expression for self inductance of a toroid is L=μ0N2h2πlnR2R1 Use the given values,…

Q: d) Write the explicit integral for the magnetic flux through the area of the loop using the answer…

A: The magnetic field at position x from the current-carrying wire can be represented as, Here, μ0 and…

Q: (a) A current-carrying circular loop lies on a smooth horizontal plane. Can a uniform magnetic field…

A:

Q: A small airplane with a wingspan of 14.0 m is flying due north at a speed of 70.0 m/s over a region…

A: As per guideline answer is given for first 3 sub-parts. a) The required potential difference is,

Q: t a particular place on the surface of the Earth, the Earth's magnetic field has magnitude of 4.50 ✕…

A: UE=0.5ε0E2=0.58.854×10-12 C/N·m2148 V/m2=9.70×10-8 J/m31 nJ10-9 J=97.0 nJ/m3

Q: A time-dependent uniform magnetic field of magnitude B(t) is confined in a cylindrical region of…

A: According to the given data, Length of the rod = 2D; Radius of the cylindrical region = R; Let’s…

Q: A physician is using a device, with a thin circular coil of current-carrying wire of radius 1.7 mm,…

A: Given Data : The radius of the circular coil is given as r=1.7mm×1m1000mm=1.7×10-3m The final…

Q: The space to the right of the y axis in (Figure 1) contains a uniform magnetic field of unknown…

A:

Q: (a) The sliding bar in the figure has a length of 0.473 m and moves at 2.38 m/s in a magnetic field…

A: Length is 0.473m  Velocity is 2.38m/s Magnetic field is 0.255 T

Q: The segment of wire in Figure P30.7 carries a current of I = 5.10 A, where the radius of the…

A: The required magnitude of the magnetic field at the origin is,

Q: A diamond-shaped loop of wire is pulled at a constant velocity through a region where the magnetic…

A: Given:A diamond shaped loop of wire is pulled at a constant velocity through a region where The…

Q: Suppose a conducting rod (mass m, resistance R) rests on two frictionless and resistanceless…

A: The formula for the magnetic force in terms of current is: From newton’s second law of motion, the…

Q: neurologist is using a device, with a thin circular coil of current-carrying wire of radius 2.0 mm,…

A: Given :-   R = 2 mm  = 2 * 10-3 m  dBdt = 1.10 * 10 2 T /sec

Q: n an electric motor, a coil with 131 turns of radius 2.20 cm can rotate between the poles of a…

A:

Q: A physician is using a device, with a thin circular coil of current-carrying wire of radius 1.4 mm,…

A:

Q: The superconducting magnet of an MRI scanner requires 890 A of current to generate a magnetic field…

A: Given: Current I=890 A, Magnetic field B=6.5 T, Radius of solenoid coil r=0.65 m, Length of solenoid…

Q: A solenoid with 4 x 107 turns/m has an iron core placed in it whose magnetic susceptibility is 4.0 ×…

A: Given: The number of turns in the solenoid is 4×107 turns/m. The magnetic susceptibility of the iron…

Q: The figure below shows three edge views of a square loop with sides of length ℓ = 0.240 m in a…

A:

Q: At a particular point on Earth, the magnitude of the Earth's magnetic field is 4.00 ✕ 10−5 T. At…

A: First of all , we have to understand the meaning of magnetic flux ,  basically the Magnetic flux is…

Q: In the figure below, a metal bar sitting on two parallel conducting rails, connected to each other…

A:

Q: A long solenoid, with its axis along the x axis, consists of 170 turns per meter of wire that…

A: