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Direction: The following item consists of two statements, one labelled as ‘Statement (I)’ and the other as ‘Statement (II)’. Examine these two statements carefully and select the answer using the code given below:
Statement (I): The magnetic field at which a superconductor remains in its superconducting state at a temperature less than the transition temperature is greater than the critical field corresponding to the given temperature.
Statement (II): If applied magnetic field is more than critical field, then transition temperature will be reduced.
  • a)
    Both Statement I and Statement II are individually true and Statement II is the correct explanation of Statement I
  • b)
    Both Statement I and Statement II are individually true but Statement II is not the correct explanation of Statement I
  • c)
    Statement I is true but Statement II is false
  • d)
    Statement I is false but Statement II is true
Correct answer is option 'D'. Can you explain this answer?
Most Upvoted Answer
Direction:The following item consists of two statements, one labelled ...
At the critical field, the superconductor will come to a normal state.
For a superconductor,
When T < Tc then, Hc < H0
Therefore, the magnetic field is less than the critical field corresponding to the given temperature.
Therefore, the statement I is false.
As we increase the value of Hc, then the value of T will be reduced.
Therefore, if an applied magnetic field is more than the critical field, then the transition temperature will be reduced.
Therefore, statement II is true.
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Direction:The following item consists of two statements, one labelled as ‘Statement (I)’ and the other as ‘Statement (II)’. Examine these two statements carefully and select the answer using the code given below:Statement (I):The magnetic field at which a superconductor remains in its superconducting state at a temperature less than the transition temperature is greater than the critical field corresponding to the given temperature.Statement (II):If applied magnetic field is more than critical field, then transition temperature will be reduced.a)Both Statement I and Statement II are individually true and Statement II is the correct explanation of Statement Ib)Both Statement I and Statement II are individually true but Statement II is not the correct explanation of Statement Ic)Statement I is true but Statement II is falsed)Statement I is false but Statement II is trueCorrect answer is option 'D'. Can you explain this answer?
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Direction:The following item consists of two statements, one labelled as ‘Statement (I)’ and the other as ‘Statement (II)’. Examine these two statements carefully and select the answer using the code given below:Statement (I):The magnetic field at which a superconductor remains in its superconducting state at a temperature less than the transition temperature is greater than the critical field corresponding to the given temperature.Statement (II):If applied magnetic field is more than critical field, then transition temperature will be reduced.a)Both Statement I and Statement II are individually true and Statement II is the correct explanation of Statement Ib)Both Statement I and Statement II are individually true but Statement II is not the correct explanation of Statement Ic)Statement I is true but Statement II is falsed)Statement I is false but Statement II is trueCorrect answer is option 'D'. Can you explain this answer? for Electrical Engineering (EE) 2024 is part of Electrical Engineering (EE) preparation. The Question and answers have been prepared according to the Electrical Engineering (EE) exam syllabus. Information about Direction:The following item consists of two statements, one labelled as ‘Statement (I)’ and the other as ‘Statement (II)’. Examine these two statements carefully and select the answer using the code given below:Statement (I):The magnetic field at which a superconductor remains in its superconducting state at a temperature less than the transition temperature is greater than the critical field corresponding to the given temperature.Statement (II):If applied magnetic field is more than critical field, then transition temperature will be reduced.a)Both Statement I and Statement II are individually true and Statement II is the correct explanation of Statement Ib)Both Statement I and Statement II are individually true but Statement II is not the correct explanation of Statement Ic)Statement I is true but Statement II is falsed)Statement I is false but Statement II is trueCorrect answer is option 'D'. Can you explain this answer? covers all topics & solutions for Electrical Engineering (EE) 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Direction:The following item consists of two statements, one labelled as ‘Statement (I)’ and the other as ‘Statement (II)’. Examine these two statements carefully and select the answer using the code given below:Statement (I):The magnetic field at which a superconductor remains in its superconducting state at a temperature less than the transition temperature is greater than the critical field corresponding to the given temperature.Statement (II):If applied magnetic field is more than critical field, then transition temperature will be reduced.a)Both Statement I and Statement II are individually true and Statement II is the correct explanation of Statement Ib)Both Statement I and Statement II are individually true but Statement II is not the correct explanation of Statement Ic)Statement I is true but Statement II is falsed)Statement I is false but Statement II is trueCorrect answer is option 'D'. Can you explain this answer?.
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Examine these two statements carefully and select the answer using the code given below:Statement (I):The magnetic field at which a superconductor remains in its superconducting state at a temperature less than the transition temperature is greater than the critical field corresponding to the given temperature.Statement (II):If applied magnetic field is more than critical field, then transition temperature will be reduced.a)Both Statement I and Statement II are individually true and Statement II is the correct explanation of Statement Ib)Both Statement I and Statement II are individually true but Statement II is not the correct explanation of Statement Ic)Statement I is true but Statement II is falsed)Statement I is false but Statement II is trueCorrect answer is option 'D'. Can you explain this answer?, a detailed solution for Direction:The following item consists of two statements, one labelled as ‘Statement (I)’ and the other as ‘Statement (II)’. Examine these two statements carefully and select the answer using the code given below:Statement (I):The magnetic field at which a superconductor remains in its superconducting state at a temperature less than the transition temperature is greater than the critical field corresponding to the given temperature.Statement (II):If applied magnetic field is more than critical field, then transition temperature will be reduced.a)Both Statement I and Statement II are individually true and Statement II is the correct explanation of Statement Ib)Both Statement I and Statement II are individually true but Statement II is not the correct explanation of Statement Ic)Statement I is true but Statement II is falsed)Statement I is false but Statement II is trueCorrect answer is option 'D'. Can you explain this answer? has been provided alongside types of Direction:The following item consists of two statements, one labelled as ‘Statement (I)’ and the other as ‘Statement (II)’. 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Examine these two statements carefully and select the answer using the code given below:Statement (I):The magnetic field at which a superconductor remains in its superconducting state at a temperature less than the transition temperature is greater than the critical field corresponding to the given temperature.Statement (II):If applied magnetic field is more than critical field, then transition temperature will be reduced.a)Both Statement I and Statement II are individually true and Statement II is the correct explanation of Statement Ib)Both Statement I and Statement II are individually true but Statement II is not the correct explanation of Statement Ic)Statement I is true but Statement II is falsed)Statement I is false but Statement II is trueCorrect answer is option 'D'. Can you explain this answer? tests, examples and also practice Electrical Engineering (EE) tests.
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