The magnetic field outside a solenoid behaves similarly to that of a bar magnet because both have field lines that form a pattern resembling that of a bar magnet, with the field lines curving around from one end to the other.
Electrons behave like tiny magnets because they have a property known as spin. This spin generates a magnetic field around the electron, giving it magnetic properties. When electrons are in motion, their spin causes them to act like small magnets, aligning with an external magnetic field.
A piece of iron doesn't behave as a magnet on its own because the magnetic domains within the iron are not aligned to create a magnetic field. In order for the iron to become magnetized and exhibit magnetic properties, an external magnetic field must be applied to align the domains.
Atoms behave as magnets for two reasons. First, the electrons which make up the atom are themselves magnets, with magnetic dipole moments of magnitude one Bohr magneton Second, the atoms are ''orbiting'' the nucleus, and this orbital motion etcAnswered by,Justin James
Yes, magnetic lines of force are invisible to the naked eye. They represent the direction and strength of magnetic fields around a magnet or current-carrying conductor. These lines help illustrate how magnetic fields behave in space.
Imaginary lines of force around a magnet are called magnetic field lines. They represent the direction and strength of the magnetic field. These lines provide a visual way to understand how magnetic fields behave and interact with other magnets or magnetic materials.
When current is passed through a solenoid coil, magnetic field produced due to each turn of solenoid coil is in the same direction. As a result the resultant magnetic field is very strong and uniform. The field lines inside the solenoid are in the form of parallel straight lines along the axis of solenoid. Thus, the solenoid behaves like a bar magnet.
It is magnetic.
their internal structure makes them behave in a similar way.
Yes. It means to behave similarly to, or to imitate.
All of the elements in group 1 on the periodic table will behave similarly to sodium.
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Electrons behave like tiny magnets because they have a property known as spin. This spin generates a magnetic field around the electron, giving it magnetic properties. When electrons are in motion, their spin causes them to act like small magnets, aligning with an external magnetic field.
Silicon (Si) will behave similarly to Carbon (C) in the periodic table as they are in the same group (Group 14) and have similar chemical properties. Both elements can form covalent bonds and have similar reactivity patterns.
A piece of iron doesn't behave as a magnet on its own because the magnetic domains within the iron are not aligned to create a magnetic field. In order for the iron to become magnetized and exhibit magnetic properties, an external magnetic field must be applied to align the domains.
what caused a nail to be given with magnetic property
Atoms behave as magnets for two reasons. First, the electrons which make up the atom are themselves magnets, with magnetic dipole moments of magnitude one Bohr magneton Second, the atoms are ''orbiting'' the nucleus, and this orbital motion etcAnswered by,Justin James
Yes, magnetic lines of force are invisible to the naked eye. They represent the direction and strength of magnetic fields around a magnet or current-carrying conductor. These lines help illustrate how magnetic fields behave in space.