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A 10 cm long perfectly conducting wire PQ is moving with a velocity 1 cm/s on a pair of horizontal rails of zero resistance. One side of the rails is connected to an inductor L = 1 mH and a resistance R = 1Ω as shown in the figure. The horizontal rails, L and R lie in the same plane with a uniform magnetic field B = 1 T perpendicular to the plane. If the key S is closed at certain instant, the current in the circuit after 1 millisecond is x *10-3 A, where the value of x is ________[Assume the velocity of wire PQ remains constant (1 cm/s) after key S is closed. Given: e-1 = 0.37, where eis base of the natural logarithm]Correct answer is '0.63'. Can you explain this answer? for JEE 2024 is part of JEE preparation. The Question and answers have been prepared
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the JEE exam syllabus. Information about A 10 cm long perfectly conducting wire PQ is moving with a velocity 1 cm/s on a pair of horizontal rails of zero resistance. One side of the rails is connected to an inductor L = 1 mH and a resistance R = 1Ω as shown in the figure. The horizontal rails, L and R lie in the same plane with a uniform magnetic field B = 1 T perpendicular to the plane. If the key S is closed at certain instant, the current in the circuit after 1 millisecond is x *10-3 A, where the value of x is ________[Assume the velocity of wire PQ remains constant (1 cm/s) after key S is closed. Given: e-1 = 0.37, where eis base of the natural logarithm]Correct answer is '0.63'. Can you explain this answer? covers all topics & solutions for JEE 2024 Exam.
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Here you can find the meaning of A 10 cm long perfectly conducting wire PQ is moving with a velocity 1 cm/s on a pair of horizontal rails of zero resistance. One side of the rails is connected to an inductor L = 1 mH and a resistance R = 1Ω as shown in the figure. The horizontal rails, L and R lie in the same plane with a uniform magnetic field B = 1 T perpendicular to the plane. If the key S is closed at certain instant, the current in the circuit after 1 millisecond is x *10-3 A, where the value of x is ________[Assume the velocity of wire PQ remains constant (1 cm/s) after key S is closed. Given: e-1 = 0.37, where eis base of the natural logarithm]Correct answer is '0.63'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of
A 10 cm long perfectly conducting wire PQ is moving with a velocity 1 cm/s on a pair of horizontal rails of zero resistance. One side of the rails is connected to an inductor L = 1 mH and a resistance R = 1Ω as shown in the figure. The horizontal rails, L and R lie in the same plane with a uniform magnetic field B = 1 T perpendicular to the plane. If the key S is closed at certain instant, the current in the circuit after 1 millisecond is x *10-3 A, where the value of x is ________[Assume the velocity of wire PQ remains constant (1 cm/s) after key S is closed. Given: e-1 = 0.37, where eis base of the natural logarithm]Correct answer is '0.63'. Can you explain this answer?, a detailed solution for A 10 cm long perfectly conducting wire PQ is moving with a velocity 1 cm/s on a pair of horizontal rails of zero resistance. One side of the rails is connected to an inductor L = 1 mH and a resistance R = 1Ω as shown in the figure. The horizontal rails, L and R lie in the same plane with a uniform magnetic field B = 1 T perpendicular to the plane. If the key S is closed at certain instant, the current in the circuit after 1 millisecond is x *10-3 A, where the value of x is ________[Assume the velocity of wire PQ remains constant (1 cm/s) after key S is closed. Given: e-1 = 0.37, where eis base of the natural logarithm]Correct answer is '0.63'. Can you explain this answer? has been provided alongside types of A 10 cm long perfectly conducting wire PQ is moving with a velocity 1 cm/s on a pair of horizontal rails of zero resistance. One side of the rails is connected to an inductor L = 1 mH and a resistance R = 1Ω as shown in the figure. The horizontal rails, L and R lie in the same plane with a uniform magnetic field B = 1 T perpendicular to the plane. If the key S is closed at certain instant, the current in the circuit after 1 millisecond is x *10-3 A, where the value of x is ________[Assume the velocity of wire PQ remains constant (1 cm/s) after key S is closed. Given: e-1 = 0.37, where eis base of the natural logarithm]Correct answer is '0.63'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice A 10 cm long perfectly conducting wire PQ is moving with a velocity 1 cm/s on a pair of horizontal rails of zero resistance. One side of the rails is connected to an inductor L = 1 mH and a resistance R = 1Ω as shown in the figure. The horizontal rails, L and R lie in the same plane with a uniform magnetic field B = 1 T perpendicular to the plane. If the key S is closed at certain instant, the current in the circuit after 1 millisecond is x *10-3 A, where the value of x is ________[Assume the velocity of wire PQ remains constant (1 cm/s) after key S is closed. Given: e-1 = 0.37, where eis base of the natural logarithm]Correct answer is '0.63'. Can you explain this answer? tests, examples and also practice JEE tests.