Magnets play a crucial role in medicine, most notably in MRI (Magnetic Resonance Imaging) machines, which use strong magnetic fields to create detailed images of internal organs and tissues. Magnetic therapy is another application, where magnets are used to alleviate pain and inflammation. AdditionaRead more
Magnets play a crucial role in medicine, most notably in MRI (Magnetic Resonance Imaging) machines, which use strong magnetic fields to create detailed images of internal organs and tissues. Magnetic therapy is another application, where magnets are used to alleviate pain and inflammation. Additionally, magnets are utilized in targeted drug delivery systems, where magnetic fields guide and concentrate medications directly to affected areas in the body, improving treatment efficacy while minimizing side effects.
For more CBSE Class 6 Science Curiosity Chapter 4 Exploring Magnets Extra Questions & Answer:
To ensure magnets remain effective, store them properly with keepers—soft iron bars placed across their poles—to prevent demagnetization. Keep magnets away from high temperatures, as heat can weaken their magnetic properties. Avoid dropping them, as impacts can misalign their magnetic domains. AdditRead more
To ensure magnets remain effective, store them properly with keepers—soft iron bars placed across their poles—to prevent demagnetization. Keep magnets away from high temperatures, as heat can weaken their magnetic properties. Avoid dropping them, as impacts can misalign their magnetic domains. Additionally, store them in a dry environment to prevent rusting, especially for magnets made of iron. It’s also important to keep magnets away from electronic devices to avoid interference or damage.
For more CBSE Class 6 Science Curiosity Chapter 4 Exploring Magnets Extra Questions & Answer:
Placing a piece of wood between the compass needle and the magnet will not affect the needle’s deflection. Wood is non-magnetic and does not influence the magnetic field. Since wood does not alter the magnetic forces, the compass needle will continue to align itself with the Earth's magnetic field aRead more
Placing a piece of wood between the compass needle and the magnet will not affect the needle’s deflection. Wood is non-magnetic and does not influence the magnetic field. Since wood does not alter the magnetic forces, the compass needle will continue to align itself with the Earth’s magnetic field and the magnet’s influence. Therefore, the deflection observed will remain unchanged as the magnetic properties of the wood do not interfere with the compass’s operation.
For more CBSE Class 6 Science Curiosity Chapter 4 Exploring Magnets Extra Questions & Answer:
The compass needle, being a small magnet, will exhibit similar behavior when a larger magnet is brought closer. The needle will align itself with the magnetic field of the external magnet, showing attraction or repulsion depending on the poles. If the north pole of the larger magnet is brought nearRead more
The compass needle, being a small magnet, will exhibit similar behavior when a larger magnet is brought closer. The needle will align itself with the magnetic field of the external magnet, showing attraction or repulsion depending on the poles. If the north pole of the larger magnet is brought near the compass needle’s north pole, they will repel each other, while opposite poles will attract. This behavior demonstrates the fundamental principles of magnetism and field interaction.
For more CBSE Class 6 Science Curiosity Chapter 4 Exploring Magnets Extra Questions & Answer:
To create your own magnetic compass, first magnetize a needle by rubbing it with a magnet in one direction only. Next, carefully float the needle on a small piece of cork or paper placed in a shallow dish of water. The needle will align itself along the Earth's magnetic field lines, pointing towardsRead more
To create your own magnetic compass, first magnetize a needle by rubbing it with a magnet in one direction only. Next, carefully float the needle on a small piece of cork or paper placed in a shallow dish of water. The needle will align itself along the Earth’s magnetic field lines, pointing towards the geographic north and south. This simple setup demonstrates the principles of magnetism and how magnetic fields influence the direction of magnetized objects.
For more CBSE Class 6 Science Curiosity Chapter 4 Exploring Magnets Extra Questions & Answer:
Collect information related to the use of magnets in the field of medicine.
Magnets play a crucial role in medicine, most notably in MRI (Magnetic Resonance Imaging) machines, which use strong magnetic fields to create detailed images of internal organs and tissues. Magnetic therapy is another application, where magnets are used to alleviate pain and inflammation. AdditionaRead more
Magnets play a crucial role in medicine, most notably in MRI (Magnetic Resonance Imaging) machines, which use strong magnetic fields to create detailed images of internal organs and tissues. Magnetic therapy is another application, where magnets are used to alleviate pain and inflammation. Additionally, magnets are utilized in targeted drug delivery systems, where magnetic fields guide and concentrate medications directly to affected areas in the body, improving treatment efficacy while minimizing side effects.
For more CBSE Class 6 Science Curiosity Chapter 4 Exploring Magnets Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-4/
See lessHow to keep the magnets safe?
To ensure magnets remain effective, store them properly with keepers—soft iron bars placed across their poles—to prevent demagnetization. Keep magnets away from high temperatures, as heat can weaken their magnetic properties. Avoid dropping them, as impacts can misalign their magnetic domains. AdditRead more
To ensure magnets remain effective, store them properly with keepers—soft iron bars placed across their poles—to prevent demagnetization. Keep magnets away from high temperatures, as heat can weaken their magnetic properties. Avoid dropping them, as impacts can misalign their magnetic domains. Additionally, store them in a dry environment to prevent rusting, especially for magnets made of iron. It’s also important to keep magnets away from electronic devices to avoid interference or damage.
For more CBSE Class 6 Science Curiosity Chapter 4 Exploring Magnets Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-4/
See lessSuppose we place a piece of wood between the compass needle and the magnet. Will this affect the deflection of the compass needle?
Placing a piece of wood between the compass needle and the magnet will not affect the needle’s deflection. Wood is non-magnetic and does not influence the magnetic field. Since wood does not alter the magnetic forces, the compass needle will continue to align itself with the Earth's magnetic field aRead more
Placing a piece of wood between the compass needle and the magnet will not affect the needle’s deflection. Wood is non-magnetic and does not influence the magnetic field. Since wood does not alter the magnetic forces, the compass needle will continue to align itself with the Earth’s magnetic field and the magnet’s influence. Therefore, the deflection observed will remain unchanged as the magnetic properties of the wood do not interfere with the compass’s operation.
For more CBSE Class 6 Science Curiosity Chapter 4 Exploring Magnets Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-4/
See lessThe compass needle is also a magnet. Will it show the same behaviour if a magnet is brought closer to it?
The compass needle, being a small magnet, will exhibit similar behavior when a larger magnet is brought closer. The needle will align itself with the magnetic field of the external magnet, showing attraction or repulsion depending on the poles. If the north pole of the larger magnet is brought nearRead more
The compass needle, being a small magnet, will exhibit similar behavior when a larger magnet is brought closer. The needle will align itself with the magnetic field of the external magnet, showing attraction or repulsion depending on the poles. If the north pole of the larger magnet is brought near the compass needle’s north pole, they will repel each other, while opposite poles will attract. This behavior demonstrates the fundamental principles of magnetism and field interaction.
For more CBSE Class 6 Science Curiosity Chapter 4 Exploring Magnets Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-4/
See lessHow can we make our own magnetic compass?
To create your own magnetic compass, first magnetize a needle by rubbing it with a magnet in one direction only. Next, carefully float the needle on a small piece of cork or paper placed in a shallow dish of water. The needle will align itself along the Earth's magnetic field lines, pointing towardsRead more
To create your own magnetic compass, first magnetize a needle by rubbing it with a magnet in one direction only. Next, carefully float the needle on a small piece of cork or paper placed in a shallow dish of water. The needle will align itself along the Earth’s magnetic field lines, pointing towards the geographic north and south. This simple setup demonstrates the principles of magnetism and how magnetic fields influence the direction of magnetized objects.
For more CBSE Class 6 Science Curiosity Chapter 4 Exploring Magnets Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-4/
See less