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 Page 1


 
Q1: What does the direction of thumb indicate in the right-hand thumb rule? 
 
Answer: Motion of the conductor. 
 
 
Q2: Why does the acceleration of a bar magnet decreases while falling through a solenoid, 
connected to a closed circuit? 
 
Answer: The induced current will exert an opposing force which will reduce the acceleration of falling 
bar magnet. 
 
Q3: Can two magnetic lines of force ever interact? Justify your answer. 
or 
Q: Why don’t two magnetic lines of force intersect each other? 
 
Answer: No. Two magnetic lines of force never interact. If they did, it would mean that at the point of 
intersection, the compass needle would point towards two directions, which is not possible. 
 
Q4: What will be the frequency of an alternating current, if its direction changes after every 
0.01 s? 
 
Answer: If ac current changes its direct in 0.1s, it means it completes its cycle in 0.2s(0.1s+0.1s). 
Frequency = 1/Time period = 1/0.02 = 50Hz. 
 
Q5: AB is a current carrying conductor in the plane of the paper as shown in figure. What are 
the directions of magnetic field produced by it at points P and Q? Given r
1
 > r
2
, where will the 
strength of the magnetic field be larger? 
 
Answer: To know the direction of magnetic field produced by current passing through a conductor, 
we can apply 'Right Hand Thumb Rule' or Maxwell Corkscrew rule. 
At point P, the magnetic field lines enter into the paper(screen). At point Q, the field lines are 
coming out of paper (screen)  
 
Magnetic field follows inverse square law i.e. a magnetic field decreases inversely at a distance 
while moving away from the conducting wire. 
Since r
1
 > r
2
, magnetic field is larger at Q than P. 
 
Q6: Name two sources of direct current and alternating current. 
 
Answer: DC source: dry cell, solar cell.  
AC source: AC dynamo, turbines 
 
Q7: What will happen to magnetic field due to a circular coil carrying electric current, if the 
number of turns of the coil is doubled.  
 
Answer: The magnetic field produced by a current-carrying wire at a given point depends directly 
on the current passing through it. If the number of turns in the circular coil is doubled, the field 
produced will also get doubled as that produced by a single turn. This is because the current in 
Page 2


 
Q1: What does the direction of thumb indicate in the right-hand thumb rule? 
 
Answer: Motion of the conductor. 
 
 
Q2: Why does the acceleration of a bar magnet decreases while falling through a solenoid, 
connected to a closed circuit? 
 
Answer: The induced current will exert an opposing force which will reduce the acceleration of falling 
bar magnet. 
 
Q3: Can two magnetic lines of force ever interact? Justify your answer. 
or 
Q: Why don’t two magnetic lines of force intersect each other? 
 
Answer: No. Two magnetic lines of force never interact. If they did, it would mean that at the point of 
intersection, the compass needle would point towards two directions, which is not possible. 
 
Q4: What will be the frequency of an alternating current, if its direction changes after every 
0.01 s? 
 
Answer: If ac current changes its direct in 0.1s, it means it completes its cycle in 0.2s(0.1s+0.1s). 
Frequency = 1/Time period = 1/0.02 = 50Hz. 
 
Q5: AB is a current carrying conductor in the plane of the paper as shown in figure. What are 
the directions of magnetic field produced by it at points P and Q? Given r
1
 > r
2
, where will the 
strength of the magnetic field be larger? 
 
Answer: To know the direction of magnetic field produced by current passing through a conductor, 
we can apply 'Right Hand Thumb Rule' or Maxwell Corkscrew rule. 
At point P, the magnetic field lines enter into the paper(screen). At point Q, the field lines are 
coming out of paper (screen)  
 
Magnetic field follows inverse square law i.e. a magnetic field decreases inversely at a distance 
while moving away from the conducting wire. 
Since r
1
 > r
2
, magnetic field is larger at Q than P. 
 
Q6: Name two sources of direct current and alternating current. 
 
Answer: DC source: dry cell, solar cell.  
AC source: AC dynamo, turbines 
 
Q7: What will happen to magnetic field due to a circular coil carrying electric current, if the 
number of turns of the coil is doubled.  
 
Answer: The magnetic field produced by a current-carrying wire at a given point depends directly 
on the current passing through it. If the number of turns in the circular coil is doubled, the field 
produced will also get doubled as that produced by a single turn. This is because the current in 
each circular turn has the same direction, and the field due to each turn then just adds up. 
 
Q8: Why does a current carrying conductor experiences a force when it is placed in a 
magnetic field? State Fleming’s left hand rule. 
 
( ?Note: What happens when two bar magnets are kept close to each other. They either repel or 
attract. It happens because the magnetic field lines of the two interact each other. The answer for 
the above question is also similar). 
 
Answer: The current carrying conductor produce magnetic field. When this conductor is placed in a 
magnetic field, it experiences a force due to mutual interaction of these two magnetic fields. 
Fleming's Left hand rule states, "When an electric current (I) flows in a wire, and an external 
magnetic field (B) is applied across that flow, the wire experiences a force (F) perpendicular both to 
that field and to the direction of the current flow." 
 
It can be represented by the left hand. Stretch the thumb, forefinger and middle finger: of your left 
hand mutually perpendicular to each other such that the fore finger points in the direction of magnetic 
field and the middle finger in the direction of current, then the thumb will point in the direction of 
motion or the force acting on the conductor. 
 
 
? Flemings' Left Hand rule for electric motors 
? Flemings' Right Hand rule if for electric generators. 
 
 
 
Q9 List the properties of magnetic lines of force. 
or 
 
Q: (i) What is the direction of magnetic field lines outside a bar-magnet ?  
(ii) Why two magnetic field lines cannot intersect each other ?  
(iii) What is indicated by crowding of magnetic field lines in a given region ?  
 
Answer: Properties of magnetic lines of force are: 
1. The imaginary lines which represent the direction of magnetic field, are known as magnetic 
lines of force.  
2. Magnetic lines of force are closed curves. Outside the magnet their direction is from north 
pole to south pole and inside the magnet these are from south to north pole.  
3. They neither have origin nor end.  
4. These lines do not intersect, because if they do so then it would mean two value of magnetic 
field at a single point, which is not possible.  
5. At the poles of the magnet the magnetic field is stronger because the lines of force there are 
crowded together and away from the poles the magnetic field is weak.  
Q10: When the current flows in a coil in anti-clockwise direction, what pole does it create? 
 
Answer: North Pole 
 
Q11: What is the advantage of a.c. over d.c.? 
 
Answer: The advantage of AC over DC is that electric power can be transmitted over long distances 
without much loss of energy. 
 
Q12: What does MRI stands for? 
Answer: Magnetic Resonance Imaging. 
 
Page 3


 
Q1: What does the direction of thumb indicate in the right-hand thumb rule? 
 
Answer: Motion of the conductor. 
 
 
Q2: Why does the acceleration of a bar magnet decreases while falling through a solenoid, 
connected to a closed circuit? 
 
Answer: The induced current will exert an opposing force which will reduce the acceleration of falling 
bar magnet. 
 
Q3: Can two magnetic lines of force ever interact? Justify your answer. 
or 
Q: Why don’t two magnetic lines of force intersect each other? 
 
Answer: No. Two magnetic lines of force never interact. If they did, it would mean that at the point of 
intersection, the compass needle would point towards two directions, which is not possible. 
 
Q4: What will be the frequency of an alternating current, if its direction changes after every 
0.01 s? 
 
Answer: If ac current changes its direct in 0.1s, it means it completes its cycle in 0.2s(0.1s+0.1s). 
Frequency = 1/Time period = 1/0.02 = 50Hz. 
 
Q5: AB is a current carrying conductor in the plane of the paper as shown in figure. What are 
the directions of magnetic field produced by it at points P and Q? Given r
1
 > r
2
, where will the 
strength of the magnetic field be larger? 
 
Answer: To know the direction of magnetic field produced by current passing through a conductor, 
we can apply 'Right Hand Thumb Rule' or Maxwell Corkscrew rule. 
At point P, the magnetic field lines enter into the paper(screen). At point Q, the field lines are 
coming out of paper (screen)  
 
Magnetic field follows inverse square law i.e. a magnetic field decreases inversely at a distance 
while moving away from the conducting wire. 
Since r
1
 > r
2
, magnetic field is larger at Q than P. 
 
Q6: Name two sources of direct current and alternating current. 
 
Answer: DC source: dry cell, solar cell.  
AC source: AC dynamo, turbines 
 
Q7: What will happen to magnetic field due to a circular coil carrying electric current, if the 
number of turns of the coil is doubled.  
 
Answer: The magnetic field produced by a current-carrying wire at a given point depends directly 
on the current passing through it. If the number of turns in the circular coil is doubled, the field 
produced will also get doubled as that produced by a single turn. This is because the current in 
each circular turn has the same direction, and the field due to each turn then just adds up. 
 
Q8: Why does a current carrying conductor experiences a force when it is placed in a 
magnetic field? State Fleming’s left hand rule. 
 
( ?Note: What happens when two bar magnets are kept close to each other. They either repel or 
attract. It happens because the magnetic field lines of the two interact each other. The answer for 
the above question is also similar). 
 
Answer: The current carrying conductor produce magnetic field. When this conductor is placed in a 
magnetic field, it experiences a force due to mutual interaction of these two magnetic fields. 
Fleming's Left hand rule states, "When an electric current (I) flows in a wire, and an external 
magnetic field (B) is applied across that flow, the wire experiences a force (F) perpendicular both to 
that field and to the direction of the current flow." 
 
It can be represented by the left hand. Stretch the thumb, forefinger and middle finger: of your left 
hand mutually perpendicular to each other such that the fore finger points in the direction of magnetic 
field and the middle finger in the direction of current, then the thumb will point in the direction of 
motion or the force acting on the conductor. 
 
 
? Flemings' Left Hand rule for electric motors 
? Flemings' Right Hand rule if for electric generators. 
 
 
 
Q9 List the properties of magnetic lines of force. 
or 
 
Q: (i) What is the direction of magnetic field lines outside a bar-magnet ?  
(ii) Why two magnetic field lines cannot intersect each other ?  
(iii) What is indicated by crowding of magnetic field lines in a given region ?  
 
Answer: Properties of magnetic lines of force are: 
1. The imaginary lines which represent the direction of magnetic field, are known as magnetic 
lines of force.  
2. Magnetic lines of force are closed curves. Outside the magnet their direction is from north 
pole to south pole and inside the magnet these are from south to north pole.  
3. They neither have origin nor end.  
4. These lines do not intersect, because if they do so then it would mean two value of magnetic 
field at a single point, which is not possible.  
5. At the poles of the magnet the magnetic field is stronger because the lines of force there are 
crowded together and away from the poles the magnetic field is weak.  
Q10: When the current flows in a coil in anti-clockwise direction, what pole does it create? 
 
Answer: North Pole 
 
Q11: What is the advantage of a.c. over d.c.? 
 
Answer: The advantage of AC over DC is that electric power can be transmitted over long distances 
without much loss of energy. 
 
Q12: What does MRI stands for? 
Answer: Magnetic Resonance Imaging. 
 
Q13: What colour conventions are used in domestic electrical wiring to indicate: 
(i) live wire 
(ii) neutral wire  
(iii) earth wire 
 
Answer:  
(i) live wire - red 
(ii) neutral wire - black 
(iii) earth wire - green 
 
Q14: State the principle on which an electric generator works? 
 
Answer: It works on the principle of electromagnetic induction. It converts mechanical energy into 
electrical energy. 
 
Q15: (i) What is a commutator?  
(ii) In an electric motor which part act as commutator?  
(iii) How does it help? 
 
Answer: 
(i) A device that reverses the direction of flow of current through a circuit is called a commutator. 
 
(ii) In electric motors, the split ring acts as a commutator. 
 
(iii) The reversal of current also reverses the direction of force acting on the two arms and generates a 
torque. Therefore the coil and the axle rotate half a turn more in the same direction. The reversing of 
the current is repeated at each half rotation, giving rise to a continuous rotation of the coil and to the 
axle. 
 
Q16: (i) What is an armature? What is its advantage? 
(ii) What are the advantages of electromagnet over permanent magnet?  
 
Answer: The soft iron core, on which the coil is wound, plus the coils, is called an armature. It is used 
in electric motors to act as an electromagnet. The armature (electromagnet) enhances the power of 
the motor. 
(ii) The advantages are: 
1. You can turn the electromagnet by switching ON or OFF the current.  
2. You can reverse the poles of the electromagnet by reversing the direction electric current flow 
in the coil.  
3. The magnetic field strength can be changed by changing the amount of current in the coil.  
4. An electromagnet can easily be made more powerful than a permanent magnet.  
Q17: Define electromagnetic induction. What are the different ways to induce current in a coil? 
 
 
Answer: The process, by which a changing magnetic field in a conductor induces a current in another 
conductor, is called electromagnetic induction. 
 
We can induce current in a coil by applying any of the following: 
(i) by moving it in a magnetic field 
(ii) by changing the magnetic field around it.  
 
Q18: When a proton moves in a uniform magnetic field, why does the momentum change but 
its kinetic energy does not change?  
 
Answer: The magnetic force exerted will be perpendicular to the direction of motion of the proton. As 
we know when when force acting is perpendicular to the direction of moving charge, work done will be 
zero. It means kinetic energy does not change. The force is able to change the direction (velocity) of 
the proton but not its speed (magnitude). Thus momentum and velocity changes. 
Page 4


 
Q1: What does the direction of thumb indicate in the right-hand thumb rule? 
 
Answer: Motion of the conductor. 
 
 
Q2: Why does the acceleration of a bar magnet decreases while falling through a solenoid, 
connected to a closed circuit? 
 
Answer: The induced current will exert an opposing force which will reduce the acceleration of falling 
bar magnet. 
 
Q3: Can two magnetic lines of force ever interact? Justify your answer. 
or 
Q: Why don’t two magnetic lines of force intersect each other? 
 
Answer: No. Two magnetic lines of force never interact. If they did, it would mean that at the point of 
intersection, the compass needle would point towards two directions, which is not possible. 
 
Q4: What will be the frequency of an alternating current, if its direction changes after every 
0.01 s? 
 
Answer: If ac current changes its direct in 0.1s, it means it completes its cycle in 0.2s(0.1s+0.1s). 
Frequency = 1/Time period = 1/0.02 = 50Hz. 
 
Q5: AB is a current carrying conductor in the plane of the paper as shown in figure. What are 
the directions of magnetic field produced by it at points P and Q? Given r
1
 > r
2
, where will the 
strength of the magnetic field be larger? 
 
Answer: To know the direction of magnetic field produced by current passing through a conductor, 
we can apply 'Right Hand Thumb Rule' or Maxwell Corkscrew rule. 
At point P, the magnetic field lines enter into the paper(screen). At point Q, the field lines are 
coming out of paper (screen)  
 
Magnetic field follows inverse square law i.e. a magnetic field decreases inversely at a distance 
while moving away from the conducting wire. 
Since r
1
 > r
2
, magnetic field is larger at Q than P. 
 
Q6: Name two sources of direct current and alternating current. 
 
Answer: DC source: dry cell, solar cell.  
AC source: AC dynamo, turbines 
 
Q7: What will happen to magnetic field due to a circular coil carrying electric current, if the 
number of turns of the coil is doubled.  
 
Answer: The magnetic field produced by a current-carrying wire at a given point depends directly 
on the current passing through it. If the number of turns in the circular coil is doubled, the field 
produced will also get doubled as that produced by a single turn. This is because the current in 
each circular turn has the same direction, and the field due to each turn then just adds up. 
 
Q8: Why does a current carrying conductor experiences a force when it is placed in a 
magnetic field? State Fleming’s left hand rule. 
 
( ?Note: What happens when two bar magnets are kept close to each other. They either repel or 
attract. It happens because the magnetic field lines of the two interact each other. The answer for 
the above question is also similar). 
 
Answer: The current carrying conductor produce magnetic field. When this conductor is placed in a 
magnetic field, it experiences a force due to mutual interaction of these two magnetic fields. 
Fleming's Left hand rule states, "When an electric current (I) flows in a wire, and an external 
magnetic field (B) is applied across that flow, the wire experiences a force (F) perpendicular both to 
that field and to the direction of the current flow." 
 
It can be represented by the left hand. Stretch the thumb, forefinger and middle finger: of your left 
hand mutually perpendicular to each other such that the fore finger points in the direction of magnetic 
field and the middle finger in the direction of current, then the thumb will point in the direction of 
motion or the force acting on the conductor. 
 
 
? Flemings' Left Hand rule for electric motors 
? Flemings' Right Hand rule if for electric generators. 
 
 
 
Q9 List the properties of magnetic lines of force. 
or 
 
Q: (i) What is the direction of magnetic field lines outside a bar-magnet ?  
(ii) Why two magnetic field lines cannot intersect each other ?  
(iii) What is indicated by crowding of magnetic field lines in a given region ?  
 
Answer: Properties of magnetic lines of force are: 
1. The imaginary lines which represent the direction of magnetic field, are known as magnetic 
lines of force.  
2. Magnetic lines of force are closed curves. Outside the magnet their direction is from north 
pole to south pole and inside the magnet these are from south to north pole.  
3. They neither have origin nor end.  
4. These lines do not intersect, because if they do so then it would mean two value of magnetic 
field at a single point, which is not possible.  
5. At the poles of the magnet the magnetic field is stronger because the lines of force there are 
crowded together and away from the poles the magnetic field is weak.  
Q10: When the current flows in a coil in anti-clockwise direction, what pole does it create? 
 
Answer: North Pole 
 
Q11: What is the advantage of a.c. over d.c.? 
 
Answer: The advantage of AC over DC is that electric power can be transmitted over long distances 
without much loss of energy. 
 
Q12: What does MRI stands for? 
Answer: Magnetic Resonance Imaging. 
 
Q13: What colour conventions are used in domestic electrical wiring to indicate: 
(i) live wire 
(ii) neutral wire  
(iii) earth wire 
 
Answer:  
(i) live wire - red 
(ii) neutral wire - black 
(iii) earth wire - green 
 
Q14: State the principle on which an electric generator works? 
 
Answer: It works on the principle of electromagnetic induction. It converts mechanical energy into 
electrical energy. 
 
Q15: (i) What is a commutator?  
(ii) In an electric motor which part act as commutator?  
(iii) How does it help? 
 
Answer: 
(i) A device that reverses the direction of flow of current through a circuit is called a commutator. 
 
(ii) In electric motors, the split ring acts as a commutator. 
 
(iii) The reversal of current also reverses the direction of force acting on the two arms and generates a 
torque. Therefore the coil and the axle rotate half a turn more in the same direction. The reversing of 
the current is repeated at each half rotation, giving rise to a continuous rotation of the coil and to the 
axle. 
 
Q16: (i) What is an armature? What is its advantage? 
(ii) What are the advantages of electromagnet over permanent magnet?  
 
Answer: The soft iron core, on which the coil is wound, plus the coils, is called an armature. It is used 
in electric motors to act as an electromagnet. The armature (electromagnet) enhances the power of 
the motor. 
(ii) The advantages are: 
1. You can turn the electromagnet by switching ON or OFF the current.  
2. You can reverse the poles of the electromagnet by reversing the direction electric current flow 
in the coil.  
3. The magnetic field strength can be changed by changing the amount of current in the coil.  
4. An electromagnet can easily be made more powerful than a permanent magnet.  
Q17: Define electromagnetic induction. What are the different ways to induce current in a coil? 
 
 
Answer: The process, by which a changing magnetic field in a conductor induces a current in another 
conductor, is called electromagnetic induction. 
 
We can induce current in a coil by applying any of the following: 
(i) by moving it in a magnetic field 
(ii) by changing the magnetic field around it.  
 
Q18: When a proton moves in a uniform magnetic field, why does the momentum change but 
its kinetic energy does not change?  
 
Answer: The magnetic force exerted will be perpendicular to the direction of motion of the proton. As 
we know when when force acting is perpendicular to the direction of moving charge, work done will be 
zero. It means kinetic energy does not change. The force is able to change the direction (velocity) of 
the proton but not its speed (magnitude). Thus momentum and velocity changes. 
 
Q19: Is magnetic field vector or scalar quantity? 
 
Answer: Magnetic field is a vector quantity. It has both magnitude and direction. 
 
Q20: Can a 5A fuse be used in wire carrying 15 A current? Why? 
 
Answer: Since the current withdrawn in the electric circuit is 15A, the fuse will blow frequently and 
remain ineffective. 
 
Q21: An electric oven of 2 kW power rating is operated in a domestic electric circuit that has a 
current rating of 5A. If the supply voltage is 220V, what result do you expect ? Explain. 
 
Answer: Given, 
Power of the oven (P) = 2kW = 2 × 10
3
 W 
Voltage supplied (V) = 220V 
Current (I) = ? A 
Power = V × I 
? I = P/V = 2 × 10
3
/ 220 = 9.09 A 
Since the domestic electric circuit has a current rating of 5A, the flow of 9.09 A by the Oven exceeds 
the safe limit. Here, fuse will blow and break the circuit. 
 
Q22: A current flows from the wire wound around an iron nail as shown in the figure below. 
Where is the North Pole and South Pole? 
 
 
 
Answer: You may use right-hand rule i.e. if fingers of right hand curl in the direction of the current, 
thumb points towards the North pole. Top one will be South Pole and bottom face will be the North 
Pole.  
 
Q23: What are the different ways to strengthen an electromagnet? 
 
Answer: 
Page 5


 
Q1: What does the direction of thumb indicate in the right-hand thumb rule? 
 
Answer: Motion of the conductor. 
 
 
Q2: Why does the acceleration of a bar magnet decreases while falling through a solenoid, 
connected to a closed circuit? 
 
Answer: The induced current will exert an opposing force which will reduce the acceleration of falling 
bar magnet. 
 
Q3: Can two magnetic lines of force ever interact? Justify your answer. 
or 
Q: Why don’t two magnetic lines of force intersect each other? 
 
Answer: No. Two magnetic lines of force never interact. If they did, it would mean that at the point of 
intersection, the compass needle would point towards two directions, which is not possible. 
 
Q4: What will be the frequency of an alternating current, if its direction changes after every 
0.01 s? 
 
Answer: If ac current changes its direct in 0.1s, it means it completes its cycle in 0.2s(0.1s+0.1s). 
Frequency = 1/Time period = 1/0.02 = 50Hz. 
 
Q5: AB is a current carrying conductor in the plane of the paper as shown in figure. What are 
the directions of magnetic field produced by it at points P and Q? Given r
1
 > r
2
, where will the 
strength of the magnetic field be larger? 
 
Answer: To know the direction of magnetic field produced by current passing through a conductor, 
we can apply 'Right Hand Thumb Rule' or Maxwell Corkscrew rule. 
At point P, the magnetic field lines enter into the paper(screen). At point Q, the field lines are 
coming out of paper (screen)  
 
Magnetic field follows inverse square law i.e. a magnetic field decreases inversely at a distance 
while moving away from the conducting wire. 
Since r
1
 > r
2
, magnetic field is larger at Q than P. 
 
Q6: Name two sources of direct current and alternating current. 
 
Answer: DC source: dry cell, solar cell.  
AC source: AC dynamo, turbines 
 
Q7: What will happen to magnetic field due to a circular coil carrying electric current, if the 
number of turns of the coil is doubled.  
 
Answer: The magnetic field produced by a current-carrying wire at a given point depends directly 
on the current passing through it. If the number of turns in the circular coil is doubled, the field 
produced will also get doubled as that produced by a single turn. This is because the current in 
each circular turn has the same direction, and the field due to each turn then just adds up. 
 
Q8: Why does a current carrying conductor experiences a force when it is placed in a 
magnetic field? State Fleming’s left hand rule. 
 
( ?Note: What happens when two bar magnets are kept close to each other. They either repel or 
attract. It happens because the magnetic field lines of the two interact each other. The answer for 
the above question is also similar). 
 
Answer: The current carrying conductor produce magnetic field. When this conductor is placed in a 
magnetic field, it experiences a force due to mutual interaction of these two magnetic fields. 
Fleming's Left hand rule states, "When an electric current (I) flows in a wire, and an external 
magnetic field (B) is applied across that flow, the wire experiences a force (F) perpendicular both to 
that field and to the direction of the current flow." 
 
It can be represented by the left hand. Stretch the thumb, forefinger and middle finger: of your left 
hand mutually perpendicular to each other such that the fore finger points in the direction of magnetic 
field and the middle finger in the direction of current, then the thumb will point in the direction of 
motion or the force acting on the conductor. 
 
 
? Flemings' Left Hand rule for electric motors 
? Flemings' Right Hand rule if for electric generators. 
 
 
 
Q9 List the properties of magnetic lines of force. 
or 
 
Q: (i) What is the direction of magnetic field lines outside a bar-magnet ?  
(ii) Why two magnetic field lines cannot intersect each other ?  
(iii) What is indicated by crowding of magnetic field lines in a given region ?  
 
Answer: Properties of magnetic lines of force are: 
1. The imaginary lines which represent the direction of magnetic field, are known as magnetic 
lines of force.  
2. Magnetic lines of force are closed curves. Outside the magnet their direction is from north 
pole to south pole and inside the magnet these are from south to north pole.  
3. They neither have origin nor end.  
4. These lines do not intersect, because if they do so then it would mean two value of magnetic 
field at a single point, which is not possible.  
5. At the poles of the magnet the magnetic field is stronger because the lines of force there are 
crowded together and away from the poles the magnetic field is weak.  
Q10: When the current flows in a coil in anti-clockwise direction, what pole does it create? 
 
Answer: North Pole 
 
Q11: What is the advantage of a.c. over d.c.? 
 
Answer: The advantage of AC over DC is that electric power can be transmitted over long distances 
without much loss of energy. 
 
Q12: What does MRI stands for? 
Answer: Magnetic Resonance Imaging. 
 
Q13: What colour conventions are used in domestic electrical wiring to indicate: 
(i) live wire 
(ii) neutral wire  
(iii) earth wire 
 
Answer:  
(i) live wire - red 
(ii) neutral wire - black 
(iii) earth wire - green 
 
Q14: State the principle on which an electric generator works? 
 
Answer: It works on the principle of electromagnetic induction. It converts mechanical energy into 
electrical energy. 
 
Q15: (i) What is a commutator?  
(ii) In an electric motor which part act as commutator?  
(iii) How does it help? 
 
Answer: 
(i) A device that reverses the direction of flow of current through a circuit is called a commutator. 
 
(ii) In electric motors, the split ring acts as a commutator. 
 
(iii) The reversal of current also reverses the direction of force acting on the two arms and generates a 
torque. Therefore the coil and the axle rotate half a turn more in the same direction. The reversing of 
the current is repeated at each half rotation, giving rise to a continuous rotation of the coil and to the 
axle. 
 
Q16: (i) What is an armature? What is its advantage? 
(ii) What are the advantages of electromagnet over permanent magnet?  
 
Answer: The soft iron core, on which the coil is wound, plus the coils, is called an armature. It is used 
in electric motors to act as an electromagnet. The armature (electromagnet) enhances the power of 
the motor. 
(ii) The advantages are: 
1. You can turn the electromagnet by switching ON or OFF the current.  
2. You can reverse the poles of the electromagnet by reversing the direction electric current flow 
in the coil.  
3. The magnetic field strength can be changed by changing the amount of current in the coil.  
4. An electromagnet can easily be made more powerful than a permanent magnet.  
Q17: Define electromagnetic induction. What are the different ways to induce current in a coil? 
 
 
Answer: The process, by which a changing magnetic field in a conductor induces a current in another 
conductor, is called electromagnetic induction. 
 
We can induce current in a coil by applying any of the following: 
(i) by moving it in a magnetic field 
(ii) by changing the magnetic field around it.  
 
Q18: When a proton moves in a uniform magnetic field, why does the momentum change but 
its kinetic energy does not change?  
 
Answer: The magnetic force exerted will be perpendicular to the direction of motion of the proton. As 
we know when when force acting is perpendicular to the direction of moving charge, work done will be 
zero. It means kinetic energy does not change. The force is able to change the direction (velocity) of 
the proton but not its speed (magnitude). Thus momentum and velocity changes. 
 
Q19: Is magnetic field vector or scalar quantity? 
 
Answer: Magnetic field is a vector quantity. It has both magnitude and direction. 
 
Q20: Can a 5A fuse be used in wire carrying 15 A current? Why? 
 
Answer: Since the current withdrawn in the electric circuit is 15A, the fuse will blow frequently and 
remain ineffective. 
 
Q21: An electric oven of 2 kW power rating is operated in a domestic electric circuit that has a 
current rating of 5A. If the supply voltage is 220V, what result do you expect ? Explain. 
 
Answer: Given, 
Power of the oven (P) = 2kW = 2 × 10
3
 W 
Voltage supplied (V) = 220V 
Current (I) = ? A 
Power = V × I 
? I = P/V = 2 × 10
3
/ 220 = 9.09 A 
Since the domestic electric circuit has a current rating of 5A, the flow of 9.09 A by the Oven exceeds 
the safe limit. Here, fuse will blow and break the circuit. 
 
Q22: A current flows from the wire wound around an iron nail as shown in the figure below. 
Where is the North Pole and South Pole? 
 
 
 
Answer: You may use right-hand rule i.e. if fingers of right hand curl in the direction of the current, 
thumb points towards the North pole. Top one will be South Pole and bottom face will be the North 
Pole.  
 
Q23: What are the different ways to strengthen an electromagnet? 
 
Answer: 
1. Can add second battery to increase the amount of current.  
2. Add more number of turns in the coil.  
In addition, an electromagnet also depends on the type of core used. Type of material, shape, size 
and winding pattern of the coil also control the shape and strength of the magnet field of an 
electromagnet. 
 
Q24: A current of 5A is flowing through a conductor AB. Will the current be induced in the 
circular wire of give radius 1m? 
 
 
Answer: Since a steady current of 5A is flowing through the conductor, no current or emf will be 
induced in the circular wire. 
 
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FAQs on Question & Answer - Magnetic Effects of Electric Current - Class 10

1. What is the magnetic effect of an electric current?
Ans. The magnetic effect of an electric current refers to the production of a magnetic field around a conductor when an electric current flows through it. This effect is used in various applications like electric motors, generators, transformers, and many more.
2. What is the right-hand thumb rule?
Ans. The right-hand thumb rule is a rule used to determine the direction of the magnetic field around a current-carrying conductor. According to this rule, if we hold a current-carrying conductor in our right hand such that the thumb points in the direction of the current, then the curled fingers will point in the direction of the magnetic field.
3. What is the difference between an electromagnet and a permanent magnet?
Ans. An electromagnet is a temporary magnet that is created by passing an electric current through a coil of wire, whereas a permanent magnet is a material that is magnetized and retains its magnetism even in the absence of an external magnetic field. Electromagnets are used in various applications like electric bells, cranes, and many more, while permanent magnets are used in applications like loudspeakers, refrigerators, and many more.
4. What is Faraday's law of electromagnetic induction?
Ans. Faraday's law of electromagnetic induction states that when a conductor is placed in a changing magnetic field, an electromotive force (EMF) is induced in the conductor. This law finds its application in various devices like generators, transformers, and many more.
5. What is the difference between AC and DC?
Ans. AC stands for Alternating Current, and DC stands for Direct Current. The significant difference between the two is that in AC, the direction of the current changes periodically, whereas in DC, the direction of the current remains constant. AC is used in the power transmission and distribution system, while DC is used in batteries, electronic devices, and many more.
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