Show that superconductors a4e diamangetic in nature
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Superconductors are the materials whose conductivity tends to infinite as resistivity tends to zero at critical temperature (transition temperature).
Critical temperature (Tc): The temperature at which a conductor becomes a superconductor is known as critical temperature.
Critical Magnetic Field (Hc): The magnetic field required to convert the superconductor into a conductor is known as critical magnetic field.
Critical magnetic field is related with critical temperature as:
Hc(T) = Hc(0)[1 – T2/Tc2]
Meissner Effect:
Suppose there is a conductor placed in a magnetic field at temperature T (refer figure). Then the temperature is decreased till the critical temperature. See what happened (figure). Lines of force are expelled from the superconductor. This is called Meissner effect.
B is not 0 at T > Tc B=0 at T < Tc
Definition Meissner Effect: The expulsion of magnetic lines of force from a superconducting specimen when it is cooled below the critical temperature is called Meissner effect.
To prove that superconductors are diamagnetic by nature:
B is not 0 at T > Tc B=0 at T < Tc
As B = µ0 (H +M)
Where B is magnetic induction or magnetic flux density,
H is applied magnetic field or magnetic field intensity
And M is intensity of magnetization.
For superconductors B = 0
Thus either µ0 = 0 or H + M = 0
But µ0 can not be zero,
Thus H + M =0
Or M = -H (1)
By definition of magnetic susceptibility
X = M/H
Put equation (1)
Thus X = -1
But magnetic susceptibility is negative for diamagnetic materials, thus it proves that superconductors are diamagnetic by nature.
Critical temperature (Tc): The temperature at which a conductor becomes a superconductor is known as critical temperature.
Critical Magnetic Field (Hc): The magnetic field required to convert the superconductor into a conductor is known as critical magnetic field.
Critical magnetic field is related with critical temperature as:
Hc(T) = Hc(0)[1 – T2/Tc2]
Meissner Effect:
Suppose there is a conductor placed in a magnetic field at temperature T (refer figure). Then the temperature is decreased till the critical temperature. See what happened (figure). Lines of force are expelled from the superconductor. This is called Meissner effect.
B is not 0 at T > Tc B=0 at T < Tc
Definition Meissner Effect: The expulsion of magnetic lines of force from a superconducting specimen when it is cooled below the critical temperature is called Meissner effect.
To prove that superconductors are diamagnetic by nature:
B is not 0 at T > Tc B=0 at T < Tc
As B = µ0 (H +M)
Where B is magnetic induction or magnetic flux density,
H is applied magnetic field or magnetic field intensity
And M is intensity of magnetization.
For superconductors B = 0
Thus either µ0 = 0 or H + M = 0
But µ0 can not be zero,
Thus H + M =0
Or M = -H (1)
By definition of magnetic susceptibility
X = M/H
Put equation (1)
Thus X = -1
But magnetic susceptibility is negative for diamagnetic materials, thus it proves that superconductors are diamagnetic by nature.
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