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A: Given Data : The magnitude of the magnetic field is given as B=1.6 mT The current is given as I = 16…
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A: (given) Current (I) = 17.2 mA = 17.2 x 10-3 A Radius of the loop (r) = 12.1 mm…
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A: Given, I = 28 AB=1.3 mT =1.6 x 10-3 Tμ∘=4π x 10-7 Tm/A
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A: Recall F→=q(V→×B→)
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A: particle = proton charge = 1.6 * 10-19 C v→ = 5i^ -6 j^ + k^ m/sB→ = i^ + 2j^ -k ^ T
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- Suppose you have an infinitely long cylindrical current carrying wire with radius a=24cm. The current density of the wire is J=cr2a2 where c=5A/m2 is a constant. a)Find the enclosed current at radial distance r=(0.5a)cm. b)Find the magnitude of magnetic field at radial distance r=(0.5a)cm. c)Find the magnitude of magnetic field at radial distance d=78cm. Now, consider a finite wire of length L=10cm which has the same current density as the infinite wire. This finite wire is made into a loop. d)Find the magnitude of magnetic field at the center of the loop.A 2.65 m segment of wire supplying current to the motor of a submerged submarine carries 1050 A and feels a 4.4 N repulsive force from a parallel wire 5.00 cm away. What is the magnitude of the current in the other wire in A?A current sheet, K = 30.0a A / m, lies in the plane z = −5 m and a filamentary conductor is on the y axis with a current of 5.0 A in the direction a. Find the force per unit length. Resp 94.2 uN / m (attraction)
- Consider the infinite wire carrying current of 2 A along positive y-direction. The other wire is carrying current of 1 A along positive x direction from x = 4 m to x=12 m. Calculate the force exert on second wire from the first wire. (a) 3.634×10 N (b) 4.394x10N (c) 7.216x1077 N (d) 9.631x10 NAn electric current is flowing through a long cylindrical conductor with radius a = 0.75 m. The current density J = 9.5 A/m2 is uniform in the cylinder. In this problem we consider an imaginary cylinder with radius r around the axis AB. 1. For r = 0.5 a, calculate the numerical value of B in Tesla. 2. Express the magnitude of the magnetic field, B, at r > a in terms of I and r. 3. Express B in terms of J, a and r. 4. For r = 2 a, calculate the numerical value of B in Tesla.A coaxial cable consists of a long thin wire surrounded by a cylindrical conductor of radius 5mm. A current of 20A flows to the right in the wire and an equal current flows to the left in the outer conductor. Using Ampere’s law, find the magnetic field at a point 2.5 mm from the central wire, and a point 2.5 cm from the central wire. Sketch the magnetic field lines.