A solenoid of length I is made of N circular loops of wires of radius R. A current I is running through the wires.
Q: Find the magnetic flux within the solenoid in terms of μo, N, R, i and I ONLY.
A: Given Data: Current in solenoid= i Length of solenoid= l Number of loops = N Radius of loop = R…
Q: Solenoid has length L = 0.60 m and inner diameter d = 3.5 cm, and it carries a current i = 2 A. It…
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Q: The figure below shows the cross section of three long straight current carrying wires. Wire a…
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Q: With help of Ampere's Law, find the magnetic field B inside the solenoid in terms of μo, N, R, i and…
A: To find : Magnetic field inside the solenoid
Q: Pr3. A long, cylindrical wire has the cross-section of an annulus, i.e. region between two…
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Q: the straight wire i
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Q: An electromagnet in the shape of a horseshoe has a coil with N turns. The coil carries a current I.…
A: Given:Turns on the electromagnet, NArea of cross section of the poles, Acurrent through the…
Q: A portion of a long, cylindrical coaxial cable is shown in the figure below. An electrical current I…
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Q: You are working during the summer at a company that builds theme parks. The company is designing an…
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Q: A solenoid with 31 turns per centimeter carries a current I. An electron moves within the solenoid…
A: No of solenoid turs N = 31 turns circulation radius of the electron is R = 2.2×10-2…
Q: Two parallel cables are set apart by a distance r = 40 cm. Currents I1 = 6.0 A and I2 = 10.0 A flow…
A: I1=6 AI2=10 Ar=0.4 m (distance between the wires)l=2 m (length of the wire)μo=4π×10-7Tm/A…
Q: A wire with current i = 3.06 A is shown in the figure. Two semi-infinite straight sections, both…
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Q: A hollow cylindrical conductor of inner radius 0.0133 m and outer radius 0.0262 m has a magnetic…
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Q: d B The two straight wires above are L = 11.5 cm long, and d = 6.00 cm apart have a current of /=…
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Q: If both wires are carrying a current of 7.5 A, what is the magnitude of the magnetic field, in…
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Q: Problem 1: A 2.5 m segment of wire supplying current to the motor of a submerged submarine carries…
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Q: h{ piz d oi₁ The figure shows the cross section through three long wires with linear mass…
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Q: A wire with current i = 4.38 A is shown in the figure. Two semi-infinite straight sections, both…
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Q: Two VERY LONG wires are placed along pârallel lines as shown below in the picture. The wire ON THE…
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Q: A long solenoid has 78 turns/cm and carries current i. An electron moves within the solenoid in a…
A: The current i in the solenoid. given: Speed of electronve=0.0359cnumber of turns per unit…
Q: Two long straight current-carrying wires are lined up parallel to one another in vacuum at a…
A: magnetic field due to straight wire B = μ0I/2πr
Q: A long straight wire has a radius R, and a current of 3.0 A is uniformly-distributed throughout its…
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Q: Calculate the field inside the solenoid, near the center using B Honl. %3D 8° Nonl= (4nx 107) 400
A: The magnetic field at the centre of the solenoid is B =μon I where, n is the number of turns per…
Q: A long horizontal wire AB rests on the surface of a table. See the figure below.Another wire, CD,…
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Q: b. A 10 cm long solenoid with a radius 1cm has 500 turns. The current in the solenoid is changing at…
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Q: The figure below shows two wires, each carrying a current. The first wire consists of a circular arc…
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Q: here are two concentric tungsten wire loops; a 4 cm radius loop and a 33 cm radius loop. The…
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- The three conducting rings in the figure are all in the same plane as a long wire. The wire has a current / that is steadily decreasing with time at a constant rate. What can you say about the induced electromotive force in each of the rings A, B, and C? A O No electromotive force is induced in any of the rings. O A counter-clockwise electromotive force is induced in ring A, but a clockwise electromotive force is induced in rings B and C. O A clockwise electromotive force is induced in ring A. Ring B has no induced electromotive force, and ring C has a counterclockwise electromotive force. O All rings have a counterclockwise induced electromotive force. O A counter-clockwise electromotive force is induced in ring A. Ring B has no induced electromotive force, and ring C has a clockwise electromotive force.A conducting rod moves with a constant velocity in a direction perpendicular to a long, straight wire carrying a current I as shown in Figure. Find the magnitude of the emf generated between the ends of the rod.AY R R/2|; d A single current-carrying circular loop of radius R = 8.8 cm is placed next to a long straight wire as shown in Figure. A current i1 = 7.2 A is passing through the wire towards right. At a certain moment an electron is moving at a velocity v = 700.0 jm/s toward the centre of the circular wire. At the instant shown in figure, the electron's distance from the wire is d — 2.1ст. The z axis points out of the page in the coordinate system shown in the figure which is represented by the circle with a dot inside. a) Compute the magnitude of the magnetic field at the centre c due to the current passing through the straight wire.
- The small currents in axons corresponding to nerve impulses produce measurable magneticfields. A typical axion carries a peak current of 0. 040 μA. What is the strength of the field at a distanceof 0.9 mm?The two wires shown in the figure below are separated by d = 10.4 cm and carry currents of I = 5.40 A in opposite directions. Two vertical, parallel wires are separated by a distance d. To the left of the left wire is an arrow labeled I pointing up. To the right of the right wire is an arrow labeled I pointing down. A point P2 is a distance 2d to the left of the left wire, and a point P1 is a distance d to the right of the right wire. (a) Find the magnitude and direction of the net magnetic field at a point midway between the wires. magnitude ?T direction (b) Find the magnitude and direction of the net magnetic field at point P1, 10.4 cm to the right of the wire on the right. magnitude ?T direction (c) Find the magnitude and direction of the net magnetic field at point P2, 2d = 20.8 cm to the left of the wire on the left. magnitude ?T directionA rectangular wire loop with a length of 3.5 m and a width of 0.2 m carries a clockwise current of 32.4 A. An infinitely long wire carrying current 89.6 A from left to right lies nearby. At its closest point, the loop is a distance 0.16 m from the wire. W What is the force acting on the loop in Newtons? Use a positive number for an attractive force (loop moves toward wire) and a negative number for a repulsive force (loop moves away from wire).