the compass aligns with the magnetic field created by the wire
A compass needle is a tiny magnet that aligns with the magnetic field around it. When brought near an electromagnet, the magnetic field produced by the electromagnet affects the compass needle, causing it to align with the new magnetic field created by the electromagnet.
Humphrey Davy noticed that when he brought a wire with electricity running through it near a compass, the needle of the compass deflected, indicating that the electric current produced a magnetic field around the wire. This discovery led to the understanding of the relationship between electricity and magnetism.
When a metal object is brought near a compass, it can disrupt the Earth's magnetic field around the compass. This disruption causes the compass needle to align itself with the new magnetic field created by the metal object, resulting in a change in direction.
If battery terminals are brought near a compass, the magnetic field produced by the flow of current in the battery can interfere with the Earth's magnetic field, causing the compass needle to deviate from its normal orientation. This can lead to inaccurate readings on the compass.
When a compass is placed near a current-carrying conductor, the magnetic field produced by the current can interact with the compass needle, causing it to deflect from its original position. This phenomenon is known as the magnetic field produced by the current affecting the magnetic needle in the compass. The direction of the deflection will depend on the orientation of the current and the compass in relation to each other.
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A compass needle is a tiny magnet that aligns with the magnetic field around it. When brought near an electromagnet, the magnetic field produced by the electromagnet affects the compass needle, causing it to align with the new magnetic field created by the electromagnet.
Humphrey Davy noticed that when he brought a wire with electricity running through it near a compass, the needle of the compass deflected, indicating that the electric current produced a magnetic field around the wire. This discovery led to the understanding of the relationship between electricity and magnetism.
When a metal object is brought near a compass, it can disrupt the Earth's magnetic field around the compass. This disruption causes the compass needle to align itself with the new magnetic field created by the metal object, resulting in a change in direction.
When some pieces of plastics are brought near the magnet, they will get attracted.
If battery terminals are brought near a compass, the magnetic field produced by the flow of current in the battery can interfere with the Earth's magnetic field, causing the compass needle to deviate from its normal orientation. This can lead to inaccurate readings on the compass.
Induction happens
the electric-charge interaction occurs when a''charge'' object is near another ''charge'' or ''uncharde''object
When a compass is placed near a current-carrying conductor, the magnetic field produced by the current can interact with the compass needle, causing it to deflect from its original position. This phenomenon is known as the magnetic field produced by the current affecting the magnetic needle in the compass. The direction of the deflection will depend on the orientation of the current and the compass in relation to each other.
They repel one another.
the field lines bend away from the other change