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Magnetic lines do not intersect one-another because
- a)they are at a distance
- b)they are in the same direction
- c)they are parallel to another
- d)at the point of intersection there will be two direction of the magnetic force which is impossible
Correct answer is option 'D'. Can you explain this answer?
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Magnetic lines do not intersect one-another becausea)they are at a dis...
The two magnetic field lines do not intersect each other because if they do it means at the point of intersect the compass needle is showing two different directions which is not possible.
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Magnetic lines do not intersect one-another becausea)they are at a dis...
Explanation:
Magnetic lines, also known as magnetic field lines or magnetic flux lines, are used to represent the direction and strength of the magnetic field surrounding a magnet or a current-carrying wire. These lines are continuous closed loops that form a pattern around the magnetic source.
Why Magnetic Lines Do Not Intersect:
The reason magnetic lines do not intersect one another is because at the point of intersection, there would be two different directions of the magnetic force, which is not possible. Let's explore this further:
1. Magnetic Force:
- Magnetic field lines represent the direction of the magnetic force at any point in space.
- The magnetic force experienced by a charged particle or a magnetic material is always tangential to the magnetic field line at that point.
- If two magnetic field lines were to intersect, it would imply that at the point of intersection, a charged particle or magnetic material would experience two different directions of magnetic force simultaneously, which is not physically possible.
2. Superposition Principle:
- The superposition principle states that the net magnetic field at any point in space is the vector sum of the individual magnetic fields produced by all the magnetic sources.
- If two magnetic field lines were to intersect, it would imply that the magnetic field at the point of intersection is the vector sum of the magnetic fields from the two intersecting field lines.
- However, this violates the superposition principle because the resultant magnetic field cannot have two different directions at the same point.
3. Conservation of Energy:
- If magnetic field lines were to intersect, it would imply that the same point in space could have different magnitudes and directions of magnetic field.
- This would violate the principle of conservation of energy because energy could be gained or lost at the point of intersection due to the different magnetic field strengths and directions.
In Conclusion:
Magnetic lines do not intersect because at the point of intersection, there would be two different directions of the magnetic force, which is not physically possible. This is due to the nature of magnetic fields and their representation by magnetic field lines. The non-intersecting nature of magnetic field lines ensures the consistency of the magnetic force and the principles of superposition and conservation of energy.
Magnetic lines, also known as magnetic field lines or magnetic flux lines, are used to represent the direction and strength of the magnetic field surrounding a magnet or a current-carrying wire. These lines are continuous closed loops that form a pattern around the magnetic source.
Why Magnetic Lines Do Not Intersect:
The reason magnetic lines do not intersect one another is because at the point of intersection, there would be two different directions of the magnetic force, which is not possible. Let's explore this further:
1. Magnetic Force:
- Magnetic field lines represent the direction of the magnetic force at any point in space.
- The magnetic force experienced by a charged particle or a magnetic material is always tangential to the magnetic field line at that point.
- If two magnetic field lines were to intersect, it would imply that at the point of intersection, a charged particle or magnetic material would experience two different directions of magnetic force simultaneously, which is not physically possible.
2. Superposition Principle:
- The superposition principle states that the net magnetic field at any point in space is the vector sum of the individual magnetic fields produced by all the magnetic sources.
- If two magnetic field lines were to intersect, it would imply that the magnetic field at the point of intersection is the vector sum of the magnetic fields from the two intersecting field lines.
- However, this violates the superposition principle because the resultant magnetic field cannot have two different directions at the same point.
3. Conservation of Energy:
- If magnetic field lines were to intersect, it would imply that the same point in space could have different magnitudes and directions of magnetic field.
- This would violate the principle of conservation of energy because energy could be gained or lost at the point of intersection due to the different magnetic field strengths and directions.
In Conclusion:
Magnetic lines do not intersect because at the point of intersection, there would be two different directions of the magnetic force, which is not physically possible. This is due to the nature of magnetic fields and their representation by magnetic field lines. The non-intersecting nature of magnetic field lines ensures the consistency of the magnetic force and the principles of superposition and conservation of energy.
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Magnetic lines do not intersect one-another becausea)they are at a distanceb)they are in the same directionc)they are parallel to anotherd)at the point of intersection there will be two direction of the magnetic force which is impossibleCorrect answer is option 'D'. Can you explain this answer?
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Magnetic lines do not intersect one-another becausea)they are at a distanceb)they are in the same directionc)they are parallel to anotherd)at the point of intersection there will be two direction of the magnetic force which is impossibleCorrect answer is option 'D'. Can you explain this answer? for Teaching 2024 is part of Teaching preparation. The Question and answers have been prepared according to the Teaching exam syllabus. Information about Magnetic lines do not intersect one-another becausea)they are at a distanceb)they are in the same directionc)they are parallel to anotherd)at the point of intersection there will be two direction of the magnetic force which is impossibleCorrect answer is option 'D'. Can you explain this answer? covers all topics & solutions for Teaching 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Magnetic lines do not intersect one-another becausea)they are at a distanceb)they are in the same directionc)they are parallel to anotherd)at the point of intersection there will be two direction of the magnetic force which is impossibleCorrect answer is option 'D'. Can you explain this answer?.
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