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The proton behaves in the opposite direction of the electron in a magnetic field.
bcz the magnetic field is due to motion of electrons in a conductor nd protons are +vely charged so it will be attracted by the magnetic field and so proton move in opposite direction to the electron i.e in anticlockwise direction
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What streams of electrons and protons that shoot out from the sun's corona amke up the solar?
The streams of electrons and protons that shoot out from the sun's corona and make up the solar wind. This constant outflow of charged particles can interact with Earth's magnetic field and atmosphere, creating phenomena like the auroras.
How can one differentiate between paramagnetic and diamagnetic substances?
Paramagnetic substances are attracted to a magnetic field, while diamagnetic substances are repelled by a magnetic field. This difference is due to the presence of unpaired electrons in paramagnetic substances, which align with the magnetic field, whereas diamagnetic substances have all paired electrons that create a weak opposing magnetic field.
Why is sulfur non-magnetic?
Sulfur is non-magnetic because it does not have unpaired electrons in its electron configuration. In order to exhibit magnetic properties, a material must have unpaired electrons that can align in a magnetic field and create a magnetic moment. Since sulfur does not have unpaired electrons, it remains non-magnetic.
Why isn't phosphorus magnetic?
Phosphorus is not magnetic because its electronic configuration and inherent magnetic properties do not align in a way that produces a magnetic field. Unlike elements like iron, cobalt, and nickel, which have magnetic properties due to unpaired electrons, phosphorus does not have these unpaired electrons to create a magnetic moment.
Is nickel magnetic and what properties make it exhibit magnetic behavior?
Yes, nickel is magnetic. Nickel exhibits magnetic behavior due to its atomic structure, specifically its arrangement of electrons. Nickel has unpaired electrons in its outer shell, which allows it to align its magnetic moments in the presence of a magnetic field, resulting in its magnetic properties.
Which kind of radiation is not defected by a magnetic field?
Gamma radiation is not affected by a magnetic field because it is composed of photons, which are uncharged particles. The magnetic field influences charged particles, such as electrons or protons, by causing them to curve, but it has no effect on photons.
Earths magnetic field does not affect what?
Earth's magnetic field does not affect light or sound. It primarily interacts with charged particles such as electrons and protons in Earth's atmosphere and in space.
What is an electromagnet force?
Electromagnetic force is energy created by the movement of electrically-charged atomic particles (protons and electrons). Whenever this type of energy is being released, there is both a flow (current) of charged particles, usually electrons, and a magnetic field that represents their flow in closed paths.The basic form of electromagnetism is the attraction between charged particles in an atom: the protons (+) and electrons (-). The protons repel each other but are held in place by another force, the strong nuclear force. The electrons are held in their orbitals by attraction to the protons, and kept separate as they repel the other electrons.The alignment of these charges in a number of atoms creates a magnetic field, and the motion of a magnetic field can generate an electric current. Conversely, the application of a flow of current can generate a magnetic field.
What type of radiation deflected by the magnetic field?
Charged particles such as protons and electrons are deflected by a magnetic field. This deflection is known as the Lorentz force, which causes the particles to follow a curved path instead of a straight line.
What is released when protons flip in a magnetic field?
When protons flip in a magnetic field, they release radiofrequency energy. This phenomenon is the basis for magnetic resonance imaging (MRI), a technique used in medicine to create detailed images of the body's internal structures.
What can you conclude about the orientation of the beam relative to the magnetic field when a beam of electrons passes through a magnetic field without being deflected?
If a beam of electrons passes through a magnetic field without being deflected, then the orientation of the beam is perpendicular to the magnetic field lines. This is because the force acting on a charged particle in a magnetic field is always perpendicular to both the magnetic field and the velocity of the particle, causing the electrons to move in a circular path perpendicular to the field lines.
Is the right hand rule for protons or electrons used to determine the direction of the magnetic field created by a current-carrying conductor?
The right-hand rule is used to determine the direction of the magnetic field created by a current-carrying conductor.
What causes a magnetic field to be set up around a wire?
Passing an electric current through a wire will produce an external magnetic field. This is because the electrons have spin and this spin is what produces the field. Spinning electrons (of certain characteristics) also produce the magnetic field of permanent magnets. And no spinning electrons, no magnetic field.
What is Shielding n deshielding effect in nmr?
Type your answer here... Any molecule is placed in a magnetic field,the electrons rotate around the nucleus and forms the induced field (or) secondary field that induced field is apposed to the applaid magnetic field ,so the protons are protected i.e called shielding effect
Where are the protons electrons and electrons located in an atom?
The protons and neutrons a in the middle while the electrons circle the outer area of the atom's field.
When protons flip charge in a magnetic field what is released?
When protons flip charge in a magnetic field, they release photons. This process is known as magnetic resonance and is the principle behind techniques such as magnetic resonance imaging (MRI) used in medical diagnosis.
Why is metal magnetic?
Metals are magnetic because of the way their electrons move. In metals, some electrons are free to move around, creating a magnetic field. This magnetic field allows metals to be attracted to magnets.
