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Right choice is (c) ELECTROMAGNETIC induction

The BEST I can explain: Motor EFFECT is when a current carrying conductor in a magnetic field experiences a force, HENCE its CONSEQUENCE is electromagnetic induction.

The correct choice is (a) Directly proportional

Best explanation: The force in a current carrying CONDUCTOR is directly proportional to the PRODUCT of the two charges and INVERSELY proportional to the SQUARE of the DISTANCE between them.

The CORRECT answer is (d) Stationary charge

To EXPLAIN: A stationary charge is not affected by a MAGNETIC field because stationary charges do not have any velocity. Magnetic field cannot occur in a PARTICLE having zero velocity.

The correct choice is (b) Anti-clockwise current

To EXPLAIN: A NORTH pole will always induce an anti-clockwise current WHEREAS a south pole will always induce a clockwise current DUE to electromagnetic theory.

Right OPTION is (d) 4T

Easiest explanation: The formula for induced EMF is: emf=Blv if B, l, V are perpendicular to each other. Substituting the values of l, emf and v from the QUESTION, we get B=4T.

The correct option is (b) 18.84mT

The best EXPLANATION: The MAGNETIC field in a solenoid is given by:

B=μnI

Substituting the VALUES in the given values in the equation, B=18.84mT.

Correct choice is (d) The distance between the two CONDUCTORS

The explanation: When current is flowing in two DIFFERENT conductors, the force between the two conductors is directly PROPORTIONAL to the PRODUCT of the current in the two conductors and INVERSELY proportional to the distance between the two conductors.

The correct option is (C) Direction of force

Best explanation: According to Flemming’s left HAND rule, the index finger denotes the direction of the magnetic field, the THUMB DENOTED the direction of force and the middle finger denoted the direction of the CURRENT.

The correct answer is (a) NORTH to south

Explanation: Magnetic field LINES originate at the north pole and TERMINATE at the south pole of the MAGNET.

The CORRECT choice is (b) No

For explanation I WOULD SAY: No, we cannot SEE magnetic flux lines as the “lines of magnetic flux” is purely an imaginary concept to UNDERSTAND the magnetic field clearly.

The correct answer is (c) 6.25m

The best I can explain: The formula for INDUCED EMF is: emf=Blv if B, l, v are PERPENDICULAR to each other. SUBSTITUTING the values of B, emf and v from the question, we get l=6.25m.

Correct answer is (d) Magnetic flux

Best explanation: FLEMING’s left hand RULE stated that if the index finger points towards magnetic flux, the THUMB towards the motion of the CONDUCTOR, then the middle finger points towards the induced EMF.

Correct answer is (a) INCREASES

For explanation I would say: A change in the MAGNETIC FIELD INDUCES an emf. When there is an emf, there has to be current. Hence, when the magnet is moved inside a COIL, the current in it increases.

The correct choice is (c) 10 A

The explanation: The formula for calculating the VALUE of the FORCE which is PERPENDICULAR to the magnetic FIELD is:

F=Bil

Substituting the values from the question, we get i = 10A.

The correct CHOICE is (C) Perpendicular

For explanation: When a CONDUCTOR carries a certain value of current, the force DEVELOPED in the conductor, the current in the conductor and the magnetic FIELD in the conductor are mutually perpendicular to each other.

Right OPTION is (a) Increases

Explanation: The force at right angles to the magnetic field of a CURRENT carrying CONDUCTOR increases when the magnetic field intensity increases because it is directly proportional to the force.

Right OPTION is (a) 1

Explanation: When a CHARGED particle is undeflected in a field, the magnitude of the magnetic FORCE and electric force acting on the particle is the same, hence the ratio is 1.

Right choice is (c) Perpendicular

Easy EXPLANATION: When a conductor carries a CERTAIN VALUE of current, the force DEVELOPED in the conductor, the current in the conductor and the magnetic FIELD in the conductor are mutually perpendicular to each other.

Correct option is (a) 0.3V

To explain: The formula for INDUCED emf is: emf=Blv if B,L,v are PERPENDICULAR to each other. Substituting the VALUES of B, l and v from the question, we get emf=0.3V.

The correct choice is (C) emf=Blv

Explanation: The formula for induced emf is emf=Blv, where B is the magnetic field, L is the length of the CONDUCTOR and v is the velocity with which it is moving in the magnetic field and all three quantities are mutually perpendicular to each other.

Correct CHOICE is (C) 500 turns /m

To explain: The MAGNETIC field in a SOLENOID is given by:

B=μnI

Substituting the values in the given values in the EQUATION n=500 turns/m.

The CORRECT ANSWER is (B) 13.5kN

Explanation: From the EXPRESSION:

F=Kq1q2/r^2, the value of K being 9*10^9, we get F=13.5kN.

Right CHOICE is (a) Increases

Explanation: The magnetic FIELD of a SOLENOID is directly proportional to the current in it. Hence as the current increases, the magnetic field ALSO increases.

Correct ANSWER is (a) Greater

For explanation: More the number of magnetic flux lines, greater is the force of the magnet. This is because the magnetic flux lines DENOTE the strength of the FIELD of the magnet.

Right CHOICE is (a) Direction of magnetic field

To EXPLAIN I would say: ACCORDING to Flemming’s LEFT hand rule, the index finger denotes the direction of the magnetic field, the thumb denoted the direction of force and the MIDDLE finger denoted the direction of the current.

The CORRECT answer is (a) Emerge

Explanation: Magnetic FIELD lines emerge at the north pole. Field lines SEEM to emerge at the north pole because they ORIGINATE at the north pole.

The correct choice is (b) Right HAND thumb rule

Easy explanation: The right hand thumb rule determines the direction of a magnetic FIELD in a CURRENT carrying CONDUCTOR. The rule STATES that when we align our right thumb in the direction of the current and curl our fingers around it, the direction of our fingers is the direction of the magnetic field.

Right option is (c) F=Kq1q2/r^2

The best explanation: The force in a current carrying conductor is directly PROPORTIONAL to the product of the two CHARGES and inversely proportional to the square of the distance between them. HENCE F=Kq1q2/r^2, where K is the constant of PROPORTIONALITY.

The CORRECT ANSWER is (b) Decreases

To explain: The magnetic FIELD of a solenoid is inversely proportional to the length. HENCE as the length increases, the magnetic field decreases.

Correct choice is (B) Repel

The best explanation: Lines of MAGNETIC FLUX which are parallel to each other and in the same direction repel each other because they TEND to act as like poles and like poles repel each other.

Right answer is (b) CLOSED

For explanation I would say: Magnetic FIELD lines form closed LOOPS from pole to pole. There is no discontinuity in the magnetic flux lines.

Right OPTION is (C) Electromagnetic induction

To ELABORATE: In TRANSFORMER, flux in secondary coil change due to CURRENT in the primary coil and hence current get induced in secondary coil.

Right choice is (b) v=E/B

Explanation: SINCE NET force is ZERO on the particle.

Electric force = Magnetic force

QE = QvB => E=vB or v=E/B.

The correct option is (a) TESLA*Ampere*metre

The BEST explanation: F=B*i*l. So,UNIT of force=unit of B * unit of i * unit of l = Tesla*Ampere*metre.

The correct choice is (C) Perpendicular

The explanation is: When a CONDUCTOR carries a CERTAIN value of CURRENT, the force developed in the conductor, the current in the conductor and the MAGNETIC field in the conductor are mutually perpendicular to each other.

Correct option is (a) magnetic field lines are CLOSER

To EXPLAIN: Magnetic field is STRONG where magnetic field lines are closer and weak where magnetic field lines are farther.

Correct option is (d) Perpendicular

Easy explanation: ACCORDING to Fleming’s right hand RULE, the induced EMF, the motion of the conductor and the MAGNETIC flux are mutually perpendicular.

Correct answer is (c) Motion of the conductor

For explanation I WOULD say: FLEMING’s LEFT hand rule stated that if the index finger points toward magnetic flux, the thumb TOWARDS the motion of the conductor, then the middle finger points towards the induced emf.

The CORRECT choice is (C) cross product

Easy explanation: Force in a CURRENT CARRYING conductor is given by cross product of il and B.

The correct choice is (a) Increases

For explanation I would say: The magnetic field of a SOLENOID is directly proportional to the NUMBER of TURNS in it. Hence as the number of turns increases, the magnetic field ALSO increases.

Right answer is (b) Permanent magnet

The best explanation: When a coil is wound around a steel CORE, the steel core behaves like a permanent magnet because it is a ferromagnetic material and once it becomes MAGNETIC it does not LOSE its magnetic property.

The correct choice is (C) µ0i/2πr

The EXPLANATION: Magnetic FIELD at distance d from LONG wire with carrying current i is given by-

B = µ0i/2πr.

The correct ANSWER is (b) Converge

For explanation: Magnetic FIELD lines converge at the south pole. Field lines SEEM to converge at the south pole because they END at the south pole.