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HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1 | HC Verma Solutions - JEE PDF Download

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Q.1. An electric current flows in a wire from north to south. What will be the direction of the magnetic field due to this wire at a point (a) east of the wire, (b) west of the wire, (c) vertically above the wire and (d) vertically below the wire? 

According to the right-hand thumb rule, if the thumb of our right hand points in the direction of the current flowing, then the curling of the fingers will show the direction of the magnetic field developed due to it and vice versa. Let us consider the case where an electric current flows north to south in a wire.
According to the right-hand thumb rule,
(a) for any point in the east of the wire, the magnetic field will come out of the plane of paper
(b) for a point in the west of the wire, the magnetic field will enter the plane of paper
(c) for any point vertically above the wire, the magnetic field will be from right to left
(d) for any point vertically below the wire, the magnetic field will be from left to right


Q.2. The magnetic field due to a long straight wire has been derived in terms of µ, i and d. Express this in terms of ε0, c, i and d. 

The magnetic field due to a long, straight wire is given by
HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1 | HC Verma Solutions - JEE
(In terms of ε0, c, i and d)  


Q.3. You are facing a circular wire carrying an electric current. The current is clockwise as seen by you. Is the field at the centre coming towards you or going away from you?

According to the right-hand thumb rule, if we curl the fingers of our right hand in the direction of the current flowing, then the thumb will point in the direction of the magnetic field developed due to it and vice versa. Therefore, in this case, the field at the centre is going away from us.


Q.4. In Ampere's HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1 | HC Verma Solutions - JEE the current outside the curve is not included on the right hand side. Does it mean  that the magnetic field B calculated by using Ampere's law, gives the contribution of only the currents crossing the area bounded by the curve?  

  In Ampere's law HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1 | HC Verma Solutions - JEE i is the total current crossing the area bounded by the closed curve. The magnetic field B on the left-hand side is the resultant field due to all existing currents.   


Q.5. The magnetic field inside a tightly wound, long solenoid is B = µ0 ni. It suggests that the field does not depend on the total length of the solenoid, and hence if we add more loops at the ends of a solenoid the field should not increase. Explain qualitatively why the extra-added loops do not have a considerable effect on the field inside the solenoid.  

The magnetic field due to a long solenoid is given as B = µ0ni, where n is the number of loops per unit length. So, if we add more loops at the ends of the solenoid, there will be an increase in the number of loops and an increase in the length, due to which the ratio n will remain unvaried, thereby leading to not a considerable effect on the field inside the solenoid.


Q.6. A long, straight wire carries a current. Is Ampere's law valid for a loop that does not enclose the wire, or that encloses the wire but is not circular?

Ampere's law is valid for a loop that is not circular. However, it should have some charge distribution in the area enclosed so as to have a constant electric field in the region and a non-zero magnetic field. Even if the loop defined does not have its own charge distribution but has electric influence of some other charge distribution, it can have some constant magnetic field (HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1 | HC Verma Solutions - JEE ).


Q.7. A straight wire carrying an electric current is placed along the axis of a uniformly charged ring. Will there be a magnetic force on the wire if the ring starts rotating about the wire? If yes, in which direction? 

The magnetic force on a wire carrying an electric current i is HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1 | HC Verma Solutions - JEE where l is the length of the wire and B is the magnetic field acting on it. If a uniformly charged ring starts rotating around a straight wire, then according to the right-hand thumb rule, the magnetic field due to the ring on the current carrying straight wire placed at its axis will be parallel to it. So, the cross product will be
HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1 | HC Verma Solutions - JEE
Therefore, no magnetic force will act on the wire.


Q.8. Two wires carrying equal currents i each, are placed perpendicular to each other, just avoiding a contact. If one wire is held fixed and the other is free to move under magnetic forces, what kind of motion will result?

The magnetic force on a wire carrying an electric current i is HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1 | HC Verma Solutions - JEE where l is the length of the wire and B is the magnetic field acting on it. Suppose we have one wire in the horizontal direction (fixed) and other wire in the vertical direction (free to move). If the horizontal wire is carrying current from right to left is held fixed perpendicular to the vertical wire, which is free to move, the upper portion of the free wire will tend to move in the left direction and the lower portion of the wire will tend to move in the right direction, according to Fleming's left hand rule, as the magnetic field acting on the wire due to the fixed wire will point into the plane of paper above the wire and come out of the paper below the horizontal wire and the current will flow in upward direction in the free wire. Thus, the free wire will tend to become parallel to the fixed wire so as to experience maximum attractive force.


Q.9. Two proton beams going in the same direction repel each other whereas two wires carrying currents in the same direction attract each other. Explain.

Two proton beams going in the same direction repel each other, as they are like charges and we know that like charges repel each other.
When a charge is in motion then a magnetic field is associated with it. Two wires carrying currents in the same direction produce their fields (acting on each other) in opposite directions so the resulting magnetic force acting on them is attractive. Due to the magnetic force, these two wires attract each other.
But when a charge is at rest then only an electric field is associated with it and no magnetic fiels is produced by it. So at rest, it repels a like charge by exerting a electric force on it.
Charge in motion can produce both electric field and magnetic field.
The attractive force between two current carrying wires is due to the magnetic field and repulsive force is due to the electric field.


Q.10. In order to have a current in a long wire, it should be connected to a battery or some such device. Can we obtain the magnetic due to a straight, long wire by using Ampere's law without mentioning this other part of the circuit? 

We can obtain a magnetic field due to a straight, long wire using Ampere's law by mentioning the current flowing in the wire, without emphasising on the source of the current in the wire. To apply Ampere's circuital law, we need to have a constant current flowing in the wire, irrespective of its source.


Q.11. Quite often, connecting wires carrying currents in opposite directions are twisted together in using electrical appliances. Explain how it avoids unwanted magnetic fields.

Connecting wires carrying currents in opposite directions are twisted together in using electrical appliances. If the wire is twisted, then the resultant fields from consecutive twists are in opposite directions. So the cumulative effect over a long length of wire is roughly zero.
Let at any point in between the two wires, B1 and B2 be the magnetic field due to wire 1 and wire 2 respectively.
HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1 | HC Verma Solutions - JEE
From the diagram, we can see that the net magnetic field due to first turn is into the paper and due to second twisted turn is out of the plane of paper so these fields will cancel each other. Hence if the wire is twisted, then the resultant fields from consecutive twists are in opposite directions. So the cumulative effect over a long length of wire is roughly zero.


Q.12. Two current-carrying wires may attract each other. In absence of other forces, the wires will moves towards each other increasing the kinetic energy. Does it contradict the fact that the magnetic force cannot do any work and hence cannot increase the kinetic energy? 

Magnetic field can not do any work and hence can never speed up or down a particle.

Consider 2 wires carrying current in upward direction.

Magnetic field due to current in wire 1 produces a magnetic field out of the plane of paper at the position of wire 2. Due to this magnetic field, a force is exerted on wire 2. Wire 2 electron, moving in downward direction,  move in circular paths due to this magnetic force. As these electrons can not come out of the wire so while describing circular path, they hit the edges of the wire and transfer a momentum to the wire. Due to this change in momentum, wire starts moving and gains kinetic energy. 

Multiple Choice Questions

Question for HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1
Try yourself:A vertical wire carries a current in upward direction. An electron beam sent horizontally towards the wire will be deflected
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Question for HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1
Try yourself:A current-carrying, straight wire is kept along the axis of a circular loop carrying a current. This straight wire
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Question for HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1
Try yourself:A proton beam is going from north to south and an electron beam is going from south to north. Neglecting the earth's magnetic field, the electron beam will be deflected
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Question for HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1
Try yourself:A circular loop is kept in that vertical plane which contains the north-south direction. It carries a current that is towards north at the topmost point. Let A be a point on the axis of the circle to the east of it and B a point on this axis to the west of it. The magnetic field due to the loop 
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Question for HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1
Try yourself:Consider the situation shown in figure. The straight wire is fixed but the loop can move under magnetic force. The loop will
HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1 | HC Verma Solutions - JEE
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Question for HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1
Try yourself:A charged particle is moved along a magnetic field line. The magnetic force on the particle is 
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Question for HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1
Try yourself:A moving charge produces
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Question for HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1
Try yourself:A particle is projected in a plane perpendicular to a uniform magnetic field. The area bounded by the path described by the particle is proportional to
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Question for HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1
Try yourself:Two particles X and Y having equal charge, after being accelerated through the same potential difference enter a region of uniform magnetic field and describe circular paths of radii R1 and R2 respectively. The ratio of the mass of X to that of Y is ______.
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Question for HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1
Try yourself:Two parallel wires carry currents of 20 A and 40 A in opposite directions. Another wire carying a current anti parallel to 20 A is placed midway between the two wires. T he magnetic force on it will be
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Question for HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1
Try yourself:Two parallel, long wires carry currents i1 and i2 with i1 > i2. When the currents are in the same direction, the magnetic field at a point midway between the wires is 10 µT. If the direction of i2 is reversed, the field becomes 30 µT. The ratio i1/i2 is 
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Question for HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1
Try yourself:Consider a long, straight wire of cross-sectional area A carrying a current i. Let there be n free electrons per unit volume. An observer places himself on a trolley moving in the direction opposite to the current with a speed v = i/nAe and separation from the wire by a distance r. The magnetic field seen by the observer is very nearly  
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Question for HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1
Try yourself:The magnetic field at the origin due to a current element HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1 | HC Verma Solutions - JEE placed at a position HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1 | HC Verma Solutions - JEE
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Question for HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1
Try yourself:Consider three quantities HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1 | HC Verma Solutions - JEE Here, l is the length of a wire, C is a capacitance and R is a resistance. All other symbols have standard meanings.
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Question for HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1
Try yourself:A long, straight wire carries a current along the z-axis, One can find two points in the x−y plane such that
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Question for HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1
Try yourself:A long, straight wire of radius R carries a current distributed uniformly over its cross section. T he magnitude of the magnetic field is
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Question for HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1
Try yourself:A hollow tube is carrying an electric current along its length distributed uniformly over its surface. The magnetic field
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Question for HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1
Try yourself:In a coaxial, straight cable, the central conductor and the outer conductor carry equal currents in opposite directions. The magnetic field is zero
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Question for HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1
Try yourself:A steady electric current is flowing through a cylindrical conductor.
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The document HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1 | HC Verma Solutions - JEE is a part of the JEE Course HC Verma Solutions.
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FAQs on HC Verma Questions and Solutions: Chapter 35: Magnetic Field due to a Current- 1 - HC Verma Solutions - JEE

1. What is the magnetic field due to a current?
Ans. The magnetic field due to a current is a magnetic field that is produced around a current-carrying conductor. It is a result of the movement of charged particles (electrons) in the conductor and follows the right-hand thumb rule to determine its direction.
2. How is the magnetic field due to a current calculated?
Ans. The magnetic field due to a current can be calculated using Ampere's law. For a long straight conductor, the magnetic field at a point perpendicular to the conductor is given by the equation B = (μ₀I)/(2πr), where B is the magnetic field, I is the current, r is the distance from the conductor, and μ₀ is the permeability of free space.
3. What is the direction of the magnetic field due to a current?
Ans. The direction of the magnetic field due to a current can be determined using the right-hand thumb rule. If you align your right-hand thumb in the direction of the current, the curled fingers will give the direction of the magnetic field lines around the conductor.
4. How does the magnetic field due to a current vary with distance?
Ans. The magnetic field due to a current decreases with an increase in distance from the current-carrying conductor. It follows the inverse square law, which means that the magnetic field strength is inversely proportional to the square of the distance from the conductor.
5. Can the magnetic field due to a current be shielded or blocked?
Ans. The magnetic field due to a current cannot be completely shielded or blocked by most materials. However, certain magnetic shielding materials, such as high-permeability alloys, can redirect or absorb the magnetic field lines, reducing their effect in a specific region. Magnetic fields can also be weakened by increasing the distance between the current-carrying conductor and the object of interest.
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