EASY
Earn 100

Define mobility.

Important Questions on Current Electricity

EASY
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity
The dimensional formula of mobility is _____
MEDIUM
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity
A copper wire of mm2 cross sectional area carries a current of 5 ampere. The magnitude of the drift velocity for the electrons in the wire, (Assume copper to be monovalent, MCu=63.5 kg/mol and density of copper =8920 kg m-3)
EASY
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity
A current of 10 A exists in a wire of cross-sectional area of 5 mm2 with a drift velocity of 2×10-3 m s-1. The number of free electrons in each cubic meter of the wire is
EASY
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity
Two metal wires of identical dimensions are connected in series. If v1 and v2 are the conductivities of the metal wires respectively, the effective conductivity if the combination is:
MEDIUM
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity
The number of free electrons per 100 mm of ordinary copper wire is 2×1021. Average drift speed of electrons is 0.25 mm s-1. The current flowing is
EASY
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity
A copper wire of length 1 m and uniform cross-sectional area 5×10-7 m2 carries a current of 1 A. Assuming that there are 8×1028 free electrons per m3 in copper, how long will an electron take to drift from one end of the wire to the other?
MEDIUM
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity
An electron of mass m and charge q is accelerated from rest in electric field E. The velocity acquired by the electron in travelling a distance x is
EASY
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity
A resistor connected to a battery is heated due to the current in the circuit. Which of the following quantities do not change, assuming the potential difference across the resistor is constant?
MEDIUM
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity
A current of 5 A passes through a copper conductor (resistivity =1.7×10-8 Ω m ) of radius of cross-section  5 mm . Find the mobility of the charges if their drift velocity is  1.1×10-3 m s-1 .
MEDIUM
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity
Though the electron drift velocity is small and electron charge is very small, a conductor can carry an appreciably large current because
MEDIUM
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity
A metal, whose temperature coefficient of resistivity is 5×10-4C-1, is heated from 100°C to 1100°C. By what factor does the mobllity of electrons in the metal change due to this change in temperature?
EASY
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity
The electrical conductivity of a metal is
MEDIUM
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity

Column - I gives certain physical terms associated with flow of current through a metallic conductor. Column - II gives some mathematical relations involving electrical quantities. Match Column - I and Column - II with appropriate relations.

Column - I Column - II
(A) Drift Velocity Pmne2ρ
(B) Electrical Resistivity Qnevd
(C) Relaxation Period ReEmτ
(D) Current Density SEJ

 

EASY
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity
A potential difference of 5 V is applied across a conductor of length 0.1 m. If the electron mobility is 5×10-6 m2v-1s-1 then the drift velocity of electron is
EASY
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity
The conductivity of a conductor decreases with temperature because, on heating:
EASY
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity
Drift velocity of electrons in a wire of a certain length and the circular cross-section is, Vd.. The potential difference across the wire and the wire length is doubled but, the radius of the cross-section is halved. What is the new drift speed?
EASY
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity
Assertion (A): As soon as a source of emf is connected across a conductor, a current immediately starts flowing through it.
Reason (R): Drift speed of the electron is so large that electron travel from one end of the conductor to the other end almost instantaneously.
EASY
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity
A charged particle having drift velocity of 7.5×104 m s1 in an electric field of 3×1010 V m1, has a mobility in m2 V1 s1 of:
EASY
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity
A copper wire with a cross-section area of 2×10-m2 has a free electron density equal to 5×1022 cm-3. If this wire carries a current of 16 A , the drift velocity of the electron is
HARD
Physics>Electricity and Magnetism>Current Electricity>Drift of Electrons and the Origin of Resistivity
When 5 V potential difference is applied across a wire of length 0.1 m, the drift speed of electrons is 2.5×10-4 m s-1 . If the electron density in the wire is 8×1028 m-3 , the resistivity of the material is close to: