The circuit in the figure below consists of wires at the top and bottom and identical metal springs in the left and right sides. The upper portion of the circuit is fixed. The wire at the bottom has a mass of 10.0 g and is 5.00 cm long. The springs stretch 0.500 cm under the weight of the wire, and the circuit has a total resistance of 12.0 . When a magnetic field is turned on, directed out of the page, the springs stretch an additional 0.320 cm. What is the magnitude of the magnetic field?
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- A circuit is made with a resistor of resistance 25 ohms and a movable bar with length 15 cm moving to the left with speed 8 m/s. The whole circuit is in a magnetic field B = 1.5 T (into page). Use this set up to answer the following questions. What is the current through the resistor in amps? Answer to 3 decimal places.In the accompanying figure, the rails, connecting end piece, and rod all have a resistance per unit length of 2.0 Ω/cm. The rod moves to the left at v = 3.0 m/s. If B = 0.75 T everywhere in the region, what is the current in the circuit (a) when a = 8.0 cm? (b) when a = 5.0 cm? Specify also the sense of the current flow.Two identical conducting bars of length 56.6 cm can be moved across two parallel conducting wires. The bars can be moved either to the left or right with the speeds v₁ and v₂. The top wire has a resistor with a resistance of 3.2 and the bottom wire has an ammeter (a device used to measure the current). The ammeter has neglibible resistance and reports a positive current if the current flows through it to the right. A uniform magnetic field exists everywhere with strength B either pointing into or out of the page. B or O R L V₁ A V2 1) Scenerio 1: The right bar is held at rest and the left bar is moved to the right at a constant speed of v₁ = 4.1 m/s. The magnetic field is into the page with a strength of 6.2 T. What is the EMF induced in the left bar? A positive value means the top of the bar is at a higher potential than the bottom of the bar. V Submit You currently have 0 submissions for this question. Only 10 submission are allowed. You can make 10 more submissions for this…
- An intrepid physics student transports a loop of wire from their hometown all the way to Earth's north magnetic pole. The loop has a radius ofr = 50 cm and a total resistance 75 m2, and the plane of the loop is held parallel to the ground at all times. In their hometown, Earth's magnetic 35 µT and points slightly into the ground, making an angle of 0 = 15° with a line that points due north. At the north magnetic pole, Earth's magnetic field 60 µT and points directly into the ground. If the student completed this journey over the course 48 hours, then what was the average current induced in the loop? Provide both the magnitude and direction of the current (as viewed from above the loop), and include a sketch of the "initial" and "final" configurations as part of of R field has a magnitude of B; has a magnitude of Bf of t your representation.You wish to construct a solenoid with a diameter of 2.00 cm that will produce a magnetic field of 6.20 × 10¬2 T at its center when a current of 14.0 A is passing through the coils. You want the resistance of the coil wire to be 5.60 . The resistivity of the wire used is 1.70 x 10-8 N:m (at 20.0°C), and you are using a wire that has a cross sectional area of 3.14 × 10¬8 m². (Note that this solenoid may not necessarily be so tightly wound that the adjacent loops of wire will touch each other. Nonetheless, you may assume that it behaves like an ideal solenoid.) Determine the following. (a) number of turns needed on the solenoid turns (b) length of the solenoidThere are two concentric tungsten wire loops; a 4 cm radius loop and a 33 cm radius loop. The cross-sectional area of each wire is 0.009 m2. The current in the larger loop goes from 0 A to a counterclockwise 9 A in 5.9 10-4 s. Find the voltage & current in the smaller loop during the stated time interval. Assume the B-field of the larger loop is uniform (though not constant) across the smaller loop. V = I =
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- The area of a 200 turn coil is 0.02 m². The resistance of the coil is 64 2. If the coil is oriented with its surface perpendicular to a magnetic field B, at what rate in T/s should the magnitude of B change to induce a current of 0.25 A in the coil? 320 T/s 800 T/s 4 T/s 2 T/s 0.5 T/sPhysics students, wanted to investigate the forces of attractioh (F) between two parallel conductors carrying currents l1 and l2 (also known as Ampere's Law) The students noticed that as the length of the parallel conductors (/) was increased the force of attraction between the conductors (F) also increased. The data collected is in the |L= 5A conductor 1 average separation (d 0.50m) table: conductor 2 Length, I (m) Force, F (x 106 N) 12 = 5A 1.00 9.00 1.20 10.8 1.40 12,5 1.60 14.2 1.80 16.2 (iii) On the grid plot the force and length values from the table. (iv) Draw the line of best fit (v) Find the slope of the line of best fit. (c) Use the slope calculated and the Ampere's Law rmine the experimental value of equation to de the magnetic force constant, k.The slide generator in the figure below is in a uniform magnetic field of magnitude 0.0500 T. The bar of length 0.345 m is pulled at a constant speed of 0.500 m/s. The U-shaped conductor and the bar have a resistivity of 2.75 x 10-8 · m and a cross-sectional area of 8.50 x 10-4 m². Find the current in the generator when x = 0.680 m. (Note that the A in the image below is the area of the loop, not the cross-sectional area of the conductor and bar.) 313600 X Your response differs significantly from the correct answer. Rework your solution from the beginning and check each step carefully. A Bulb is unlit. A. B. Bulb is lit. loo F mech