362664
A current carrying wire produces in its neighbourhood region
1 Electric and magnetic fields
2 Electric field only
3 Magnetic field only
4 No field
Explanation:
Current carrying loop is equivalent to magnet and electrically neutral.
PHXII04:MOVING CHARGES AND MAGNETISM
362665
The magnetic field due to a long straight wire carrying a current \(I\) is proportional to:
1 \(I\)
2 \(I^{3}\)
3 \(I^{1 / 2}\)
4 \(1 / I\)
Explanation:
\(B=\dfrac{I d \ell \sin \theta}{r^{2}} \times \dfrac{\mu_{0}}{4 \pi} \quad B \propto I\)
PHXII04:MOVING CHARGES AND MAGNETISM
362666
Statement A : Magnetic field lines always form closed loops. Statement B : Moving charges or currents produce a magnetic field.
1 Statement A is correct but Statement B is incorrect.
2 Statement A is incorrect but Statement B is correct.
3 Both statements are correct.
4 Both Statements are incorrect.
Explanation:
Option (3) is correct.
PHXII04:MOVING CHARGES AND MAGNETISM
362667
Choose the correct statement
1 The magnetic field due to current carrying conductor lie in a plane parallel to the conductor.
2 The magnetic field due to current carrying conductor is uniform in a plane perpendicular to the conductor.
3 The magnetic field due to current carrying conductor is non uniform in a plane perpendicular to the conductor.
4 The magnetic field due to current carrying conductor is zero in a plane perpendicular to the conductor.
Explanation:
Magnetic lines of force due to current carrying current are concentric circles.
PHXII04:MOVING CHARGES AND MAGNETISM
362668
Two parallel infinitely long current carrying wires are shown in the figure. If resultant magnetic field at point \(A\) is zero, then determine the value of current \(I\).
1 \(50\,A\)
2 \(15\,A\)
3 \(30\,A\)
4 \(25\,A\)
Explanation:
Resultant magnetic field due to current carrying parallel wire \(1(10 A)\) and wire \(2(I A)\) at point \(A\) is zero. i.e. \(B_{1}=B_{2}\) \(\dfrac{\mu_{0} I_{1}}{2 r_{1}}=\dfrac{\mu_{0} I_{2}}{2 r_{2}} \quad \Rightarrow \dfrac{I_{1}}{r_{1}}=\dfrac{I_{2}}{r_{2}}\) \(\Rightarrow \dfrac{10}{9 \times 10^{-2}}=\dfrac{I}{27 \times 10^{-2}}\) \(\Rightarrow I=30 A\) So, correct option is (3)
362664
A current carrying wire produces in its neighbourhood region
1 Electric and magnetic fields
2 Electric field only
3 Magnetic field only
4 No field
Explanation:
Current carrying loop is equivalent to magnet and electrically neutral.
PHXII04:MOVING CHARGES AND MAGNETISM
362665
The magnetic field due to a long straight wire carrying a current \(I\) is proportional to:
1 \(I\)
2 \(I^{3}\)
3 \(I^{1 / 2}\)
4 \(1 / I\)
Explanation:
\(B=\dfrac{I d \ell \sin \theta}{r^{2}} \times \dfrac{\mu_{0}}{4 \pi} \quad B \propto I\)
PHXII04:MOVING CHARGES AND MAGNETISM
362666
Statement A : Magnetic field lines always form closed loops. Statement B : Moving charges or currents produce a magnetic field.
1 Statement A is correct but Statement B is incorrect.
2 Statement A is incorrect but Statement B is correct.
3 Both statements are correct.
4 Both Statements are incorrect.
Explanation:
Option (3) is correct.
PHXII04:MOVING CHARGES AND MAGNETISM
362667
Choose the correct statement
1 The magnetic field due to current carrying conductor lie in a plane parallel to the conductor.
2 The magnetic field due to current carrying conductor is uniform in a plane perpendicular to the conductor.
3 The magnetic field due to current carrying conductor is non uniform in a plane perpendicular to the conductor.
4 The magnetic field due to current carrying conductor is zero in a plane perpendicular to the conductor.
Explanation:
Magnetic lines of force due to current carrying current are concentric circles.
PHXII04:MOVING CHARGES AND MAGNETISM
362668
Two parallel infinitely long current carrying wires are shown in the figure. If resultant magnetic field at point \(A\) is zero, then determine the value of current \(I\).
1 \(50\,A\)
2 \(15\,A\)
3 \(30\,A\)
4 \(25\,A\)
Explanation:
Resultant magnetic field due to current carrying parallel wire \(1(10 A)\) and wire \(2(I A)\) at point \(A\) is zero. i.e. \(B_{1}=B_{2}\) \(\dfrac{\mu_{0} I_{1}}{2 r_{1}}=\dfrac{\mu_{0} I_{2}}{2 r_{2}} \quad \Rightarrow \dfrac{I_{1}}{r_{1}}=\dfrac{I_{2}}{r_{2}}\) \(\Rightarrow \dfrac{10}{9 \times 10^{-2}}=\dfrac{I}{27 \times 10^{-2}}\) \(\Rightarrow I=30 A\) So, correct option is (3)
362664
A current carrying wire produces in its neighbourhood region
1 Electric and magnetic fields
2 Electric field only
3 Magnetic field only
4 No field
Explanation:
Current carrying loop is equivalent to magnet and electrically neutral.
PHXII04:MOVING CHARGES AND MAGNETISM
362665
The magnetic field due to a long straight wire carrying a current \(I\) is proportional to:
1 \(I\)
2 \(I^{3}\)
3 \(I^{1 / 2}\)
4 \(1 / I\)
Explanation:
\(B=\dfrac{I d \ell \sin \theta}{r^{2}} \times \dfrac{\mu_{0}}{4 \pi} \quad B \propto I\)
PHXII04:MOVING CHARGES AND MAGNETISM
362666
Statement A : Magnetic field lines always form closed loops. Statement B : Moving charges or currents produce a magnetic field.
1 Statement A is correct but Statement B is incorrect.
2 Statement A is incorrect but Statement B is correct.
3 Both statements are correct.
4 Both Statements are incorrect.
Explanation:
Option (3) is correct.
PHXII04:MOVING CHARGES AND MAGNETISM
362667
Choose the correct statement
1 The magnetic field due to current carrying conductor lie in a plane parallel to the conductor.
2 The magnetic field due to current carrying conductor is uniform in a plane perpendicular to the conductor.
3 The magnetic field due to current carrying conductor is non uniform in a plane perpendicular to the conductor.
4 The magnetic field due to current carrying conductor is zero in a plane perpendicular to the conductor.
Explanation:
Magnetic lines of force due to current carrying current are concentric circles.
PHXII04:MOVING CHARGES AND MAGNETISM
362668
Two parallel infinitely long current carrying wires are shown in the figure. If resultant magnetic field at point \(A\) is zero, then determine the value of current \(I\).
1 \(50\,A\)
2 \(15\,A\)
3 \(30\,A\)
4 \(25\,A\)
Explanation:
Resultant magnetic field due to current carrying parallel wire \(1(10 A)\) and wire \(2(I A)\) at point \(A\) is zero. i.e. \(B_{1}=B_{2}\) \(\dfrac{\mu_{0} I_{1}}{2 r_{1}}=\dfrac{\mu_{0} I_{2}}{2 r_{2}} \quad \Rightarrow \dfrac{I_{1}}{r_{1}}=\dfrac{I_{2}}{r_{2}}\) \(\Rightarrow \dfrac{10}{9 \times 10^{-2}}=\dfrac{I}{27 \times 10^{-2}}\) \(\Rightarrow I=30 A\) So, correct option is (3)
362664
A current carrying wire produces in its neighbourhood region
1 Electric and magnetic fields
2 Electric field only
3 Magnetic field only
4 No field
Explanation:
Current carrying loop is equivalent to magnet and electrically neutral.
PHXII04:MOVING CHARGES AND MAGNETISM
362665
The magnetic field due to a long straight wire carrying a current \(I\) is proportional to:
1 \(I\)
2 \(I^{3}\)
3 \(I^{1 / 2}\)
4 \(1 / I\)
Explanation:
\(B=\dfrac{I d \ell \sin \theta}{r^{2}} \times \dfrac{\mu_{0}}{4 \pi} \quad B \propto I\)
PHXII04:MOVING CHARGES AND MAGNETISM
362666
Statement A : Magnetic field lines always form closed loops. Statement B : Moving charges or currents produce a magnetic field.
1 Statement A is correct but Statement B is incorrect.
2 Statement A is incorrect but Statement B is correct.
3 Both statements are correct.
4 Both Statements are incorrect.
Explanation:
Option (3) is correct.
PHXII04:MOVING CHARGES AND MAGNETISM
362667
Choose the correct statement
1 The magnetic field due to current carrying conductor lie in a plane parallel to the conductor.
2 The magnetic field due to current carrying conductor is uniform in a plane perpendicular to the conductor.
3 The magnetic field due to current carrying conductor is non uniform in a plane perpendicular to the conductor.
4 The magnetic field due to current carrying conductor is zero in a plane perpendicular to the conductor.
Explanation:
Magnetic lines of force due to current carrying current are concentric circles.
PHXII04:MOVING CHARGES AND MAGNETISM
362668
Two parallel infinitely long current carrying wires are shown in the figure. If resultant magnetic field at point \(A\) is zero, then determine the value of current \(I\).
1 \(50\,A\)
2 \(15\,A\)
3 \(30\,A\)
4 \(25\,A\)
Explanation:
Resultant magnetic field due to current carrying parallel wire \(1(10 A)\) and wire \(2(I A)\) at point \(A\) is zero. i.e. \(B_{1}=B_{2}\) \(\dfrac{\mu_{0} I_{1}}{2 r_{1}}=\dfrac{\mu_{0} I_{2}}{2 r_{2}} \quad \Rightarrow \dfrac{I_{1}}{r_{1}}=\dfrac{I_{2}}{r_{2}}\) \(\Rightarrow \dfrac{10}{9 \times 10^{-2}}=\dfrac{I}{27 \times 10^{-2}}\) \(\Rightarrow I=30 A\) So, correct option is (3)
362664
A current carrying wire produces in its neighbourhood region
1 Electric and magnetic fields
2 Electric field only
3 Magnetic field only
4 No field
Explanation:
Current carrying loop is equivalent to magnet and electrically neutral.
PHXII04:MOVING CHARGES AND MAGNETISM
362665
The magnetic field due to a long straight wire carrying a current \(I\) is proportional to:
1 \(I\)
2 \(I^{3}\)
3 \(I^{1 / 2}\)
4 \(1 / I\)
Explanation:
\(B=\dfrac{I d \ell \sin \theta}{r^{2}} \times \dfrac{\mu_{0}}{4 \pi} \quad B \propto I\)
PHXII04:MOVING CHARGES AND MAGNETISM
362666
Statement A : Magnetic field lines always form closed loops. Statement B : Moving charges or currents produce a magnetic field.
1 Statement A is correct but Statement B is incorrect.
2 Statement A is incorrect but Statement B is correct.
3 Both statements are correct.
4 Both Statements are incorrect.
Explanation:
Option (3) is correct.
PHXII04:MOVING CHARGES AND MAGNETISM
362667
Choose the correct statement
1 The magnetic field due to current carrying conductor lie in a plane parallel to the conductor.
2 The magnetic field due to current carrying conductor is uniform in a plane perpendicular to the conductor.
3 The magnetic field due to current carrying conductor is non uniform in a plane perpendicular to the conductor.
4 The magnetic field due to current carrying conductor is zero in a plane perpendicular to the conductor.
Explanation:
Magnetic lines of force due to current carrying current are concentric circles.
PHXII04:MOVING CHARGES AND MAGNETISM
362668
Two parallel infinitely long current carrying wires are shown in the figure. If resultant magnetic field at point \(A\) is zero, then determine the value of current \(I\).
1 \(50\,A\)
2 \(15\,A\)
3 \(30\,A\)
4 \(25\,A\)
Explanation:
Resultant magnetic field due to current carrying parallel wire \(1(10 A)\) and wire \(2(I A)\) at point \(A\) is zero. i.e. \(B_{1}=B_{2}\) \(\dfrac{\mu_{0} I_{1}}{2 r_{1}}=\dfrac{\mu_{0} I_{2}}{2 r_{2}} \quad \Rightarrow \dfrac{I_{1}}{r_{1}}=\dfrac{I_{2}}{r_{2}}\) \(\Rightarrow \dfrac{10}{9 \times 10^{-2}}=\dfrac{I}{27 \times 10^{-2}}\) \(\Rightarrow I=30 A\) So, correct option is (3)
