In kicking wire experiment, the current, the magnetic field and the direction of the force on the wire are : (A) Parallel to each other (B) Mutually at right angles to each other © Have no particular direction (D) None of these
Answers
Answer:
Answer is D
Explanation:
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Answer:
In kicking wire experiment, the current, the magnetic field and the direction of the force on the wire are mutually at right angles to each other.
Explanation:
Kicking wire experiment:
When a current carrying conductor is put in a magnetic field, it experiences mechanical force that causes it to move.
The direction of force acting on a current carrying wire placed in a magnetic field is
(i) perpendicular to the direction of the current, and
(ii) perpendicular to the direction of the magnetic field.
In their surroundings, the magnetic field and the current-carrying conductor impose forces on each other. According to the above reasoning, the current-carrying wire in the kicking wire experiment is deflected due to the magnetic field of the horseshoe magnet.
The current flows in the vertically downward direction, and the direction of the magnetic field is from left to right, directed towards the east.
Thus, the current carrying conductor is at the right angle to the magnetic field.
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