name ,state and explain with an example the rule used to determine the direction of force experienced by a current carrying conductor placed in a uniform magnetic field.
Answers
The name of this rule is the Fleming's left hand rule. This is the rule used to determine the direction of force experienced by a current carrying conductor placed in a uniform magnetic field.
Explanation of this rule:
The direction of force experienced by a current carrying conductor when placed in a magnetic field it then depends on the direction of the current in the conductor and the direction of the applied magnetic field.
This can be explained with this rule by using and looking at the fingers of the left hand. For example: If the forefinger, middle finger and thumb of the left hand are stretched in a certain way. Like such that they are at right angles to each other, next the :The forefinger gives the direction of the magnetic field. This is the formation of the force field and its directions.
Basically; The middle finger points in the direction of the current. And the thumb gives the direction of the force acting on the current-carrying conductor which is placed in the external magnetic field.
Answer:
The name of this rule is the Fleming's left hand rule. This is the rule used to determine the direction of force experienced by a current carrying conductor placed in a uniform magnetic field.
Explanation of this rule:
The direction of force experienced by a current carrying conductor when placed in a magnetic field it then depends on the direction of the current in the conductor and the direction of the applied magnetic field.
This can be explained with this rule by using and looking at the fingers of the left hand. For example: If the forefinger, middle finger and thumb of the left hand are stretched in a certain way. Like such that they are at right angles to each other, next the :The forefinger gives the direction of the magnetic field. This is the formation of the force field and its directions.
Basically; The middle finger points in the direction of the current. And the thumb gives the direction of the force acting on the current-carrying conductor which is placed in the external magnetic field.