Wiki User
∙ 14y agoBecause of the magnetic force. The compass needle is also magnetic.
Because of the magnetic force. The compass needle is also magnetic.
Because of the magnetic force. The compass needle is also magnetic.
Because of the magnetic force. The compass needle is also magnetic.
Wiki User
∙ 14y agoA compass needle is a small magnet that aligns itself with the Earth's magnetic field. When near a stronger magnetic field, like that of a magnet, the compass needle will be influenced by the stronger field and adjust its direction to align with it.
Wiki User
∙ 14y agoBecause of the magnetic force. The compass needle is also magnetic.
A compass needle aligns itself with the Earth's magnetic field, pointing towards the magnetic North Pole. When the compass is moved or rotated, the needle remains aligned with the magnetic field, causing it to change direction accordingly.
You can change the direction of a compass needle by creating a magnetic field with a current-carrying wire. By passing a current through the wire and holding it near the compass needle, you can influence the direction in which the needle points. The strength and orientation of the magnetic field generated by the wire can cause the compass needle to deflect from its original direction.
The magnetic needle of a compass points towards the Earth's magnetic North Pole.
Yes, when the flow of electricity in a wire near a compass needle is reversed, the magnetic field generated by the current also changes direction. This change in magnetic field influences the orientation of the compass needle, causing it to change direction accordingly.
Yes, the compass needle will change direction if the flow of electricity in the wire near it is reversed. This is because the flow of electricity creates a magnetic field around the wire, which can interact with the magnetic field of the compass needle.
A compass needle aligns itself with the Earth's magnetic field, pointing towards the magnetic North Pole. When the compass is moved or rotated, the needle remains aligned with the magnetic field, causing it to change direction accordingly.
You can change the direction of a compass needle by creating a magnetic field with a current-carrying wire. By passing a current through the wire and holding it near the compass needle, you can influence the direction in which the needle points. The strength and orientation of the magnetic field generated by the wire can cause the compass needle to deflect from its original direction.
The magnetic needle of a compass points towards the Earth's magnetic North Pole.
Yes, when the flow of electricity in a wire near a compass needle is reversed, the magnetic field generated by the current also changes direction. This change in magnetic field influences the orientation of the compass needle, causing it to change direction accordingly.
Yes, the compass needle will change direction if the flow of electricity in the wire near it is reversed. This is because the flow of electricity creates a magnetic field around the wire, which can interact with the magnetic field of the compass needle.
A compass needle changes direction because it aligns itself with the magnetic field of the Earth. The Earth's magnetic field is generated by the movement of molten iron in its outer core. This causes the needle to point towards magnetic north.
The needle of a magnetic compass points towards the Earth's magnetic north pole. This allows users to determine their direction relative to the magnetic poles.
The force that changes the direction of a compass needle is called the magnetic force, which is generated by the Earth's magnetic field.
When you close the circuit, a magnetic field is produced which can deflect the compass needle. The direction of the compass needle will align with the magnetic field produced by the current flowing through the circuit.
Lightning can create a strong magnetic field when it strikes a ship, causing the ship's compass needle to temporarily change direction. The intense electromagnetic field generated by the lightning can interfere with the magnetic field that the compass relies on for navigation. Once the lightning subsides, the compass should return to its normal direction.
An induced magnetic field can influence the direction of a compass needle by causing it to align along the magnetic field lines produced by the induced field. This alignment happens due to the interaction between the existing magnetic field of the compass needle and the induced magnetic field. The compass needle will point in the direction of the resultant magnetic field created by the combination of the Earth's magnetic field and the induced field.
No, a compass needle is not a transformer. A compass needle is a simple magnetic instrument that aligns itself with the Earth's magnetic field to show the direction of North. Transformers, on the other hand, are devices used to change the voltage and current levels in electrical circuits.