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Solved Examples: Current Electricity | Mock Tests for JEE Main and Advanced 2025 PDF Download

Question 1: One end of an aluminum wire whose diameter is 2.5 mm is welded to one end of a copper wire whose diameter is 1.8 mm. The composite wire carries a steady current i of 17 mA.
(a) What is the current density in each wire?
(b) What is the drift speed of the conduction electrons in the copper wire? Assume that, on the average, each copper atom contributes one conduction electron.
Solution:
(a) We may take the current density as constant with in each wire (except near the junction, where the diameter changes). The cross-sectional area A of the aluminum wire is
AAl = π(d/2)2
= π/4 (2.5×10-3 m)2
= 4.91×10-6m2
And the current density is given by the equation J = i/A,
JAl = i/A
= i/AAl
= (17×10-3 A)/(4.91×10-6 m2)
= 3.5×103 A/m2
As you can verify, the cross-sectional area of the copper wire is 2.54×10-6 m2, so
JCu = i/ACu
= (17×10-3 A)/(2.54×10-6 m2)
=6.7×103A/m2
From the above observation we conclude that, the current density in aluminum wire would be 3.5×103 A/m2 and copper wire would be 6.7×103A/m2.
(b) We can find the drift speed from equation J = (ne)vd if we first find n, the number of electrons per     unit volume. With the given assumption of about one conduction electron per atom, n is the same     as the number of atoms per unit volume and can be found from n/NA = ρ/M or [atoms/m3]/[atoms/mol] = [mass/m3]/[mass/mol].
Here ρ is the density of copper, NA is Avogadro’s number, and M is the molar mass of copper. Thus
n= NAρ/M
= (6.02×1023 mol-1) (9.0×103 kg/m3)/(64×10-3 kg/mol
=8.47×1028 electrons/m3
We then have from equation J = (ne)vd,
v= [6.7×103A/m2]/[(8.47×1028 electrons/m3)(1.6×10-19 C/electron)]
= 4.9×10-7m/s = 1.8 mm/h
From the above observation we conclude that, the drift speed of the conduction electrons in the copper wire would be 1.8 mm/h.

Question 2: A rectangular block of iron has dimensions 1.2 cm×1.2 cm×15 cm.
(a) What is the resistance of the block measured between the two square ends?
(b) What is the resistance between two opposite rectangular faces?
Solution:
(a) The resistivity of iron at room temperature is 9.68×10-8 Ω.m. The area of a square end is (1.2×10-2m)2, or 1.44×10-4 m2. From equation R = ρL/A,
R= ρL/A
= [(9.68×10-8 Ω.m)(0.15 m)]/ [1.44×10-4 m2]
=1.0×10-4 Ω
= 100μΩ
Therefore, the resistance of the block measured between the two square ends would be 100μΩ.
(b) The area of a rectangular face is (1.2×10-2m) (0.15 m), or 1.80×10-3 m2. From equation R = ρL/A,
R = ρL/A
= [(9.68×10-8 Ω.m)(1.2×10-2m)]/ [1.80×10-3 m2]
= 6.5×10-7Ω
= 0.65 μΩ
From the above observation we conclude that, the resistance between two opposite rectangular faces would be 0.65 μΩ.

Question 3:   (IIT-JEE):-
(a) What is the mean free path time τ between collisions for the conduction electrons in copper?
(b) What is the mean free path λ for these collisions? Assume an effective speed veff of 1.6×106 m/s.
Solution:
(a) We know that,
ρ=m/ne2Solved Examples: Current Electricity | Mock Tests for JEE Main and Advanced 2025
The number of conduction electrons per unit volume (n) in copper will be,
n/NA = ρ/M or [atoms/m3]/[atoms/mol] = [mass/m3]/[mass/mol]
Here ρ is the density of copper, NA is Avogadro’s number, and M is the molar mass of copper. Thus
n = NAρ/M
= (6.02×1023 mol-1) (9.0×103 kg/m3)/(64×10-3 kg/mol)
=8.47×1028 electrons/m3
The value of ρ for copper is 1.69×10-8 Ω.m.
So the denominator of the above equation will be,
ne2 Solved Examples: Current Electricity | Mock Tests for JEE Main and Advanced 2025 = (8.47×1028 electrons/m3) (1.6×10-19C)2(1.69×10-8 Ω.m)
= 3.66×10-17C2. Ω/m2
= 3.66×10-17 kg/s
Here we converted units as,
C2. Ω/m2 = C2. V/m2.A = (C2.J/C)/(m2.C/s) = (kg.m2/s2)/(m2/s) = kg/s
For the mean free time we then have,
Solved Examples: Current Electricity | Mock Tests for JEE Main and Advanced 2025 = (9.1×10-31kg)/(3.66×10-17 kg/s)
= 2.5×10-14s
Therefore, the mean free path time τ between collisions for the conduction electrons in copper would be 2.5×10-14s.
(b) We defined the mean free path as being the average distance traversed by a particle between collisions. Here the time between collisions of a free electron is τ and the speed of the electron is veff .
So, λ = Solved Examples: Current Electricity | Mock Tests for JEE Main and Advanced 2025veff
= (2.5×10-14s) (1.6×106 m/s)
= 4.0×10-8 m = 40 nm
From the above observation, we conclude that the mean free path λ for these collisions would be 40 nm. This is about 150 times the distance between nearest- neighbor atoms in a copper lattice.

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FAQs on Solved Examples: Current Electricity - Mock Tests for JEE Main and Advanced 2025

1. What is current electricity?
Ans. Current electricity refers to the flow of electric charge in a conductor. It is caused by the movement of electrons through a closed circuit, usually facilitated by a power source such as a battery or generator.
2. How is current measured?
Ans. Current is measured using a device called an ammeter. The ammeter is connected in series with the circuit and measures the amount of current flowing through it in amperes (A).
3. What is the relationship between current and voltage?
Ans. According to Ohm's Law, the relationship between current (I), voltage (V), and resistance (R) in a circuit is given by the equation V = IR. This means that the current flowing through a conductor is directly proportional to the voltage applied across it, and inversely proportional to the resistance of the conductor.
4. What is the difference between AC and DC current?
Ans. AC (alternating current) and DC (direct current) are two types of electrical current. AC changes direction periodically, while DC flows in only one direction. AC is commonly used for power distribution in homes and businesses, while DC is often used in batteries and electronic devices.
5. What is the significance of resistors in a circuit?
Ans. Resistors are components that introduce resistance into a circuit. They are used to control the flow of current and voltage in a circuit, and to limit the amount of current that passes through certain components. Resistors are essential for maintaining the stability and safety of electrical circuits.
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