Table of Contents
- 1 Does magnetic field depends on length of conductor?
- 2 How force is directly proportional to length of a conductor?
- 3 When a conductor is placed in a magnetic field the force on the conductor is directly proportional to the length of the conductor?
- 4 When a current carrying conductor of length is placed parallel to the magnetic field the magnitude of force due to current carrying conductor is equal to?
- 5 When current flows through a conductor field is set up along length of conductor?
- 6 What is the relation between magnetic field current and distance?
- 7 What is the force on the conductor of length L carrying current I placed in a magnetic field of induction B?
- 8 What factors affect the size of the force on a conductor?
Does magnetic field depends on length of conductor?
The magnitude of magnetic field at a point due to a straight current carrying wire depends upon: The distance of that point from the wire- inversely proportional,greater the distance of the point from the current carrying wire, weaker will be the magnetic field produced at that point.
How force is directly proportional to length of a conductor?
Strength of the magnetic field as the external magnetic field (B) is proportional to the force. Current flowing through the wire as the current in the conductor (I) is proportional to the force. Length of the conductor as the length of the conductor in the field is proportional(l) to the force.
How the magnetic field the current in the conductor and the distance from the conductor are related?
Magnetic field is directly proportional to the current passing through the wire and it is inversely proportional to the distance from the wire.
When a conductor is placed in a magnetic field the force on the conductor is directly proportional to the length of the conductor?
False. Directly proportional. When a conductor is placed in a magnetic field, the force on the conductor is directly proportional to the length of the conductor. When a conductor is placed in a magnetic field, the force on the conductor is directly proportional to the magnitude of the magnetic field.
When a current carrying conductor of length is placed parallel to the magnetic field the magnitude of force due to current carrying conductor is equal to?
Hence, the magnitude of force is zero when the conductor lies parallel to the field.
What is the force that a conductor of length carrying a current experience when placed in a magnetic field what is the direction of this force?
When a conductor carrying a current is placed in a magnetic field, the conductor experiences a magnetic force. The direction of this force is always right angles to the plane containing both the conductor and the magnetic field, and is predicted by Flemings Left-Hand Rule.
When current flows through a conductor field is set up along length of conductor?
Therefore, when an electric current is passed through a conducting wire along its length, the electric field exists inside the wire but parallel to it. So, the correct answer is option B i.e. inside the wire but parallel to it.
What is the relation between magnetic field current and distance?
The magnetic field at point P due to the element dl is found to be proportional to the current in the wire, and the length of dl and is inversely proportional to the square of the distance R .
What is the force that a conductor of length carrying a current experiences when placed in a magnetic field B What is the direction of this force?
What is the force on the conductor of length L carrying current I placed in a magnetic field of induction B?
That is when the conductor and the magnetic field are perpendicular in direction. Then, the force is, F=BIl, which is maximum.
What factors affect the size of the force on a conductor?
Force is directly proportional to length of magnetic field….Factors on which the force acting on current carrying conductor…
- Strength of Magnetic Field.
- Strength of electric field.
- Length of conductor.