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When a current carrying conductor is kept in a magnetic field state the position when the maximum force acts on it?
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When a current carrying conductor is kept in a magnetic field state th...
The direction of force experienced by a current carrying conductor placed in a magnetic field depends on the direction of the current in the conductor and the direction of the applied magnetic field. This is given by Fleming's left hand rule.
When a current carrying conductor is placed parallel to the magnetic field, it does not experience force.
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When a current carrying conductor is kept in a magnetic field state th...
Position of Maximum Force on a Current Carrying Conductor in a Magnetic Field

When a current carrying conductor is placed in a magnetic field, it experiences a force due to the interaction between the magnetic field and the current. The position at which the maximum force acts on the conductor can be determined using the right-hand rule.

1. Right-Hand Rule:
The right-hand rule is a widely used technique to determine the direction of the force experienced by a current carrying conductor in a magnetic field. It states that if you point the thumb of your right hand in the direction of the current, and the fingers in the direction of the magnetic field, then the palm of your hand will face the direction of the force acting on the conductor.

2. Force on a Current Carrying Conductor:
The force experienced by a current carrying conductor in a magnetic field can be calculated using the equation:
F = BILsinθ

Where:
- F is the force experienced by the conductor
- B is the magnetic field strength
- I is the current flowing through the conductor
- L is the length of the conductor
- θ is the angle between the magnetic field and the direction of the current

3. Maximum Force Position:
To determine the position where the maximum force acts on the conductor, we need to consider the angle θ. The force is maximum when the angle θ is 90 degrees (perpendicular) between the magnetic field and the current direction.

When the conductor is parallel or antiparallel to the magnetic field, the force experienced is zero, as sinθ becomes zero. Therefore, the maximum force occurs when the conductor is perpendicular to the magnetic field.

4. Perpendicular Position:
In the perpendicular position, the magnetic field lines would be cutting the conductor at a right angle. This allows for maximum interaction between the magnetic field and the moving charges in the conductor, resulting in the maximum force.

5. Visual Representation:
To visually represent the position of maximum force, imagine a current carrying conductor in the form of a straight wire placed in a magnetic field. The magnetic field lines are represented by arrows, and the current is flowing from left to right.

The maximum force is experienced when the wire is positioned perpendicular to the magnetic field lines. At this position, the force acts vertically upwards or downwards, depending on the direction of the current.

By following the right-hand rule, you can determine the exact direction of the force acting on the conductor.
Community Answer
When a current carrying conductor is kept in a magnetic field state th...
When the conductor is placed perpendicular to the magnetic field.
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When a current carrying conductor is kept in a magnetic field state the position when the maximum force acts on it?
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