Q&A

Why do we use Fleming left hand rule?

Why do we use Fleming left hand rule?

Fleming’s Left-Hand Rule is a simple and accurate way to find the direction of force/motion of the conductor in an electric motor when the magnetic field direction and the current direction are known.

What is the difference between Fleming left and right hand rule?

The direction of the induced current can be found using Fleming’s Right Hand Rule….Difference Between Fleming’s Left-Hand and Right-Hand Rule.

Left-Hand Rule Right-Hand Rule
The thumb represents the direction of the thrust on the conductor. The thumb represents the direction of motion of the conductor.

What is the left hand rule for conductors?

What is Fleming’s Left Hand Rule? It is found that whenever a current carrying conductor is placed inside a magnetic field, a force acts on the conductor, in a direction perpendicular to both the directions of the current and the magnetic field.

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What is the left hand rule used to determine when the direction of current flow is known?

What is the left-hand rule used to determine when the direction of current flow is known? It is used to determine the magnetic north pole. What is a solenoid?

When to use Fleming right hand rule and left hand rule?

Fleming’s left-hand rule is used for electric motors, while Fleming’s right-hand rule is used for electric generators. In an electric generator, the motion and magnetic field exist (causes), and they lead to the creation of the electric current (effect), and so the right-hand rule is used.

What is Fleming right hand rule explain?

Fleming’s right-hand rule states that when thumb, forefinger and centre finger of right hand are held mutually perpendicular to one another, thumb, forefinger and centre finger represent directions of motion, field and current induced in the conductor, respectively. Concept: Rule to Find the Direction of Magnetic Field.

When to use Fleming Right Hand Rule and left hand rule?

In which appliance is Fleming left hand rule not used?

Fleming left hand rule is used to identify the direction of force or thrust when current is passing through any wire or coil. in above options , computer is not where force/motion lead to perform. hence, option (c) is correct.

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What is left hand rule in physics?

: a rule in electricity: if the thumb and first two fingers of the left hand are arranged at right angles to each other on a conductor and the hand oriented so that the first finger points in the direction of the magnetic field and the middle finger in the direction of the electric current then the thumb will point in …

What is right hand and left hand rule?

The Right Hand Rule, illustrated at left, simply shows how a current-carrying wire generates a magnetic field. The Left Hand Rule shows what happens when an electrical current enters a magnetic field.

In which appliance Fleming’s left hand rule is not used?

means, Fleming rule is used any appliances where force/motion lead to perform. in above options , computer is not where force/motion lead to perform. hence, option (c) is correct.

How do you use the left hand rule in physics?

When you use the left hand rule, your fingers should point in the direction that the current is flowing in the wires making up the turns on the side of the coil where your fingers make contact. So how would you place your hand on the conductor in the second diagram to figure out which direction the electrons are moving?

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Is the direction of charge flow correct in electron flow notation?

This way the labels make sense, but the direction of charge flow is incorrect. In electron flow notation, we follow the actual motion of electrons in the circuit, but the + and – labels seem backward. Does it matter, really, how we designate charge flow in a circuit?

What happens to electrons in a conductor at low temperatures?

Many conductive materials become perfectly conductive (this is called superconductivity) at extremely low temperatures. While the normal motion of “free” electrons in a conductor is random, with no particular direction or speed, electrons can be influenced to move in a coordinated fashion through a conductive material.

What is the motion of electrons through a conductor?

The liquid-flow analogy is so fitting that the motion of electrons through a conductor is often referred to as a “flow.”. A noteworthy observation may be made here. As each electron moves uniformly through a conductor, it pushes on the one ahead of it, such that all the electrons move together as a group.