Exercise 5 A solenoid with N= 1000 turns, of length L 3.0 m and circular section with radius rs 10 cm, is traversed by a

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Exercise 5 A solenoid with N= 1000 turns, of length L 3.0 m and circular section with radius rs 10 cm, is traversed by a

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Exercise 5 A Solenoid With N 1000 Turns Of Length L 3 0 M And Circular Section With Radius Rs 10 Cm Is Traversed By A 1
Exercise 5 A Solenoid With N 1000 Turns Of Length L 3 0 M And Circular Section With Radius Rs 10 Cm Is Traversed By A 1 (17.36 KiB) Viewed 28 times
Exercise 5 A Solenoid With N 1000 Turns Of Length L 3 0 M And Circular Section With Radius Rs 10 Cm Is Traversed By A 2
Exercise 5 A Solenoid With N 1000 Turns Of Length L 3 0 M And Circular Section With Radius Rs 10 Cm Is Traversed By A 2 (17.57 KiB) Viewed 28 times
Exercise 5 A Solenoid With N 1000 Turns Of Length L 3 0 M And Circular Section With Radius Rs 10 Cm Is Traversed By A 3
Exercise 5 A Solenoid With N 1000 Turns Of Length L 3 0 M And Circular Section With Radius Rs 10 Cm Is Traversed By A 3 (17.57 KiB) Viewed 28 times
Exercise 5 A solenoid with N= 1000 turns, of length L 3.0 m and circular section with radius rs 10 cm, is traversed by a constant current Is 10 A. An electric circuit approximating a square coil of side /= 20 cm and overall resistance R= 3.0 Omega is located inside the solenoid. Let 8-30 be the angle between the axis of the solenoid and the normal to the circuit. Calculate a) the mutual inductance Msc between solenoid and circuit. At a certain instant of time the current in the solenoid, constant up to that moment, begins to decrease exponentially with a time constant r= 10s. Considering the self-induction of the circuit to be negligible, calculate: b) the trend over time of the induced current fe(t) on the circuit and its maximum value e) the mechanical moment A7 acting on the circuit as a function of time and its maximum value M

Exercise 5 A solenoid with N= 1000 turns, of length L 3.0 m and circular section with radius ry 10 cm, is traversed by a constant current Is 10 A. An electric circuit approximating a square coil of side I 2.0 cm and overall resistance R= 3.0 Omega is located inside the solenoid. Let 830 be the angle between the axis of the solenoid and the normal to the circuit. Calculate a) the mutual inductance Msc between solenoid and circuit. At a certain instant of time the current in the solenoid, constant up to that moment, begins to decrease exponentially with a time constant r= 10s. Considering the self-induction of the circuit to be negligible, calculate: b) the trend over time of the induced current le(t) on the circuit and its maximum value e) the mechanical moment M acting on the circuit as a function of time and its maximum value M
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