Hans Oersted experiment

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5 Jun 202002:18

Summary

TLDRIn this video, we explore the magnetic effect of electric current through a simple experiment. When a compass is placed near a current-carrying wire, the needle deflects due to the magnetic field created by the electric current. The video demonstrates how the needle changes direction when the current's polarity is reversed, showing how the current induces a magnetic field around the wire. This discovery by Hans Christian Oersted forms the basis for many everyday appliances like electric fans and mixers. The video encourages viewers to learn more, like, share, and subscribe for more exciting science experiments.

Takeaways

😀 The compass needle points in the north-south direction under normal conditions.
😀 A magnet placed near a compass will cause the needle to deflect.
😀 The deflection of the compass needle occurs when it interacts with another magnetic field.
😀 An experiment demonstrates how the needle deflects when an electric current passes through a wire.
😀 The compass needle deflects towards the west when the current flows through the wire.
😀 When the current is stopped, the needle returns to its original position.
😀 Changing the polarity of the cell reverses the direction of the current and deflects the needle in the opposite direction.
😀 The deflection of the needle is caused by the magnetic field around the wire carrying the electric current.
😀 The experiment shows that an electric current creates a magnetic field around the conductor.
😀 This discovery by Hans Christian Oersted is called the magnetic effect of electric current.
😀 The magnetic effect of electric current is used in various devices like electric fans and mixers.

Q & A

What happens when a magnet comes near a compass needle?
-The needle of the compass deflects. This is because the compass needle is influenced by the magnetic field of the nearby magnet.
Why does the compass needle deflect when a current-carrying wire is placed under it?
-The current flowing through the wire creates a magnetic field, which interacts with the compass needle, causing it to deflect.
What happens to the compass needle when the current is stopped?
-When the current is stopped, the magnetic field around the wire disappears, and the compass needle returns to its original position.
What effect does reversing the polarity of the cell have on the compass needle?
-Reversing the polarity changes the direction of the current in the wire, which causes the compass needle to deflect in the opposite direction.
What did Hans Christian Oersted conclude from his experiment?
-Hans Christian Oersted concluded that an electric current produces a magnetic field around the conductor, which is known as the magnetic effect of electric current.
How is the magnetic effect of electricity applied in everyday appliances?
-This effect is used in various appliances, such as electric fans and mixers, where electric currents create magnetic fields to operate the device.
What is the 'magnetic effect of electric current'?
-The magnetic effect of electric current refers to the phenomenon where an electric current flowing through a conductor creates a magnetic field around it.
What causes the deflection of the compass needle during the experiment?
-The deflection is caused by the magnetic field produced by the electric current flowing through the wire beneath the compass.
Why does the compass needle point in the north-south direction normally?
-The compass needle naturally aligns with the Earth's magnetic field, which is oriented in a north-south direction.
What is the purpose of the experiment described in the script?
-The purpose of the experiment is to demonstrate how an electric current generates a magnetic field, which can influence a compass needle, thereby illustrating the magnetic effect of electric current.