Using the concept of drift velocity of charge carriers in a conductors, deduce the relationship between current density and resistvity of the conductor.
Using the concept of drift velocity of charge carriers in a conductor, deduce the relationship between current density and resistivity of the conductor. [Delhi I, II, III 2015) Ans. Drift velocity, 0 = (t = relaxation time) % The current I = neAv (n = number of charge carriers per unit volume.) , III 2017] = A i=E.
Using the concept of drift velocity of charge carriers in a conductor, deduce the relationship between current density and resistivity of the conductor. [Delhi I, II, III 2015) Ans. Drift velocity, 0 = (t = relaxation time) % The current I = neAv (n = number of charge carriers per unit volume.) , III 2017] = A i=E.
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Answer:
Using the concept of drift velocity of charge carriers in a conductor, deduce the relationship between current density and resistivity of the conductor. [Delhi I, II, III 2015) Ans. Drift velocity, 0 = (t = relaxation time) % The current I = neAv (n = number of charge carriers per unit volume.) , III 2017] = A i=E.
Using the concept of drift velocity of charge carriers in a conductor, deduce the relationship between current density and resistivity of the conductor. [Delhi I, II, III 2015) Ans. Drift velocity, 0 = (t = relaxation time) % The current I = neAv (n = number of charge carriers per unit volume.) , III 2017] = A i=E.
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