2.0 M O 10 A, clockwise х х х х xx X xx 2.0 m The square loop in the picture has resistance of 20 ohms. A uniform magnetic field points in the direction shown with a magnitude increasing at a rate of 50 T/s. What current is induced in the loop? в х х х х Х Х Х Х O 20 A, counterclockwise O 20 A, clockwise O 15 A, counterclockwise O 10 A, counterclockwise
Q: tance of the loop in (Figure 1) is 0.16 Ω. Is the magnetic field s
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- ←1.0m3 ↑ XXX xxx 1.0m xxx ↓ x is direction. of B 个 [.0m xxx xxx xxx V=4.0m/s X Consider the two scenarios (i) and (ii). (i) has a square wire in a magnetic field where the field changes -2.0 T/s. (ii) is in a constant magnetic field, B = 0.50 T but has a conducting bar that moves to the right at 4.0 m/s. Both scenarios have a total resistance of 2.0 2. (a) What is the EMF (voltage) in the wire loops in each scenario? (b) What is the current and direction of the current in each scenario?L R = 5.00 Q X Xix x 1 |X X X X R P = FexV =8.50 J/s Fext W X xx x X X X X X X X X A rectangular wire loop of length L, width w, is pulled out of a constant, uniform magnetic field with constant velocity v. The loop has a resistance R. The magnetic field of magnitude B, points into the plane of the paper, and is confined to the rectangular region shown above. Work must be done on the loop at the rate of P, to move it through the magnetic field at constant velocity. Find the magnitude of the emf, & and the current I for the loop.14
- The figure represents a moving rod of length 3 cm in a magnetic field B= 4T What is the current in the circuit represented in the figure, if the speed of the rod is 12 m/s and the resistance of the wire is 9 ohms? X X x x x R X X X X x X X X X X X X O I =122.45 mA O I =160.00 mA O I = 11.00 mA O I = 44.90 mA O I = 81.34 mAThe magnetic flux through the loop shown in the accompanying figure varies with time according to Pm = Poe at sin(wt), where = 3 x 10-³ T m², a = 5 s¹, and w = 120 rad/s. What are the direction and magnitude of the current through the 5-0 resistor at (a) t = 0; (b) t = 2.17 x 10-2 s, and (c) t = 3.00 s? Hints tm Sok Pro a. Current flows down b. Current flows up c. Current flows down v Question Help: Message instructor Submit Question with with with ' 5.0 Ω mA at t = 0. mA at t= 2.17 x 10-2 mA at t = 3.00 s. S.Find the flux of the Earth's magnetic field of magnitude 5.00 ✕ 10-5 T, through a square loop of area 30.0 cm2 for the following. (a) when the field is perpendicular to the plane of the loop T·m2(b) when the field makes a 30.0° angle with the normal to the plane of the loop T·m2(c) when the field makes a 90.0° angle with the normal to the plane T·m2
- AsapA square wire loop (side length 1.5 m) is oriented so that it is perpendicular to an external magnetic field B, with half the area of the loop embedded in the field, as shown below. The loop contains a battery with a constant emf Eb = 7.2 V and a resistor R = 3.2 Ω. The external magnetic field is B(t) = [0.027 T − (0.56 T/s) t] î where î is out of the page. (a) Findtheemfproducedbyinductionintheloop. (b) Findthenetcurrentintheloopfromboththeinducedemfandthebattery. (c) What direction is the current in? (a) Findtheemfproducedbyinductionintheloop. (b) Findthenetcurrentintheloopfromboththeinducedemfandthebattery. (c) What direction is the current in? (a) Find the emf produced by induction in the loop. (b) Find the net current in the loop from both the induced emf and the battery. (c) What direction is the current in?A flexible, circular conducting loop of radius R = 0.15 m lies in a uniform magnetic field B = 0.25 T. The loop is pulled on opposite sides by equal forces and stretched until its enclosed area A is essentially zero m², as suggested in the drawings. It takes At = 0.30 s to close the loop. X X X X X X X X X X X X X X X initial situation X X X X X X X X X X X X X X X X X X X X X X X X 13. Determine the magnitude of the EMF induced in the loop. A) 1.2 x 10-¹ V B) 1.8 x 10-2 V C) 1.8 × 10² V D) 5.9 x 10-2 V E) 5.9 × 10² V X X final situation X X X X X X X
- You wish to construct a solenoid with a diameter of 2.00 cm that will produce a magnetic field of 3.40 x 10-2T at its center when a current of 12.0 A is passing through the coils. You want the resistance of the coil wire to be 5.80 N. 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 solenoid2.0 m O 100 A, clockwise O 20 A, clockwise х х х х хх хх X хх хх Х Х Х Х 2.0 m The square loop in the picture has resistance of 5.0 ohms. A uniform magnetic field points in the direction shown with a magnitude decreasing at a rate of 25 T/s. What current is induced in the loop? O 20 A, counterclockwise O 100 A, counterclockwise O 5 A, clockwise B D