Class 10 Physics Unit 14 – Current Electricity Notes – MCQs, Short & Long Questions

Learn Class 10 Physics Unit 14 – Current Electricity with easy-to-understand notes. This chapter explains electric current, potential difference, electromotive force (e.m.f.), Ohm’s Law, resistance, conductors and insulators, series and parallel circuits, electric power, Joule’s law, DC & AC, and electrical safety. These notes help students prepare for exams quickly while understanding practical uses of electricity.

Important MCQs – Unit 14 Current Electricity

1. An electric current in conductors is due to the flow of:
(a) positive ions
(b) negative ions
(c) positive charges
(d) free electrons ✅

2. The SI unit of electric current is:
(a) Volt
(b) Ohm
(c) Ampere ✅
(d) Watt

3. According to Ohm’s Law, current is directly proportional to:
(a) Resistance
(b) Power
(c) Potential difference ✅
(d) Energy

4. A potential difference of 1 volt means:
(a) 1 joule per ampere
(b) 1 joule per coulomb ✅
(c) 1 coulomb per joule
(d) 1 ampere per volt

5. What is the function of a source of e.m.f.?
(a) Converts electrical energy into heat
(b) Measures electric current
(c) Converts non-electrical energy into electrical energy ✅
(d) Increases circuit resistance

Short Questions – Unit 14 Current Electricity

1. What is electric current?
Answer:
Electric current is the rate of flow of electric charge through any cross-section of a conductor. It shows how fast charges are moving in a circuit.

2. What is conventional current?
Answer:
Conventional current is the flow of positive charge in a circuit. It is opposite in direction to the actual flow of electrons, which are negative charges.

3. Define e.m.f.
Answer:
Electromotive force (e.m.f.) is the total energy supplied by a battery or source to move one coulomb of charge from the negative terminal to the positive terminal.

• It shows how much energy the source provides to each unit of charge.

• SI unit of e.m.f. is Volt (V).

4. State Ohm’s Law
Answer:
Ohm’s Law states that current (I) through a conductor is directly proportional to the potential difference (V) across it, provided the temperature and physical conditions remain constant.

Formula (copy-paste friendly):
I = V / R

Where:

• I = Current (Ampere)

• V = Potential difference (Volt)

• R = Resistance (Ohm)

This means:

• If voltage increases, current increases (for same resistance).

• If resistance increases, current decreases (for same voltage).

5. What is the difference between conductors and insulators?
Answer:

• Conductors: Materials that allow free movement of electrons, so electricity can pass through them easily. Examples: copper, aluminum, silver.

• Insulators: Materials that do not allow electrons to move freely, so they block the flow of electricity. Examples: rubber, glass, plastic.

Long Questions – Unit 14 Current Electricity

Q2: What is Electromotive Force (e.m.f.)? 

Definition:
Electromotive force (e.m.f.) is the total energy supplied by a battery or cell to move one coulomb of positive charge from its negative terminal to its positive terminal inside the battery.

• Note: It is not a force, but a kind of energy per unit charge.

Explanation:

• A battery converts chemical energy into electrical energy.

• Inside the battery, this energy pushes positive charges from the negative terminal to the positive terminal.

• This buildup of energy allows charges to flow in an external circuit when connected.

• The e.m.f. creates the potential difference required for current to flow.

Mathematical Formula: 
e.m.f. (E) = W / Q

Where:

• E = Electromotive force (in volts)

• W = Work done or energy supplied (in joules)

• Q = Charge (in coulombs)

Numerical Example: 
If a 2 V battery moves 10 coulombs of charge:

This means the battery supplies 20 joules of energy to move 10 coulombs of charge. ✅

Unit of e.m.f.: 

• SI unit of e.m.f. is Volt (V).

• 1 Volt = 1 Joule per Coulomb

Summary: 
Electromotive force (e.m.f.) is the energy provided by a cell or battery to move one coulomb of charge through the internal and external circuit.

• Measured in volts

• Calculated using E = W / Q

• Explains how a battery performs work to create current by moving charges from low to high potentia

 Download PDF

Click below to get the complete notes in PDF format for both English and Urdu medium.

English Medium
 View English Medium

Urdu Medium
 View Urdu Medium PDF