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
magnitude of acceleration=(e*v*B)/m
e= magnitude of charge of proton=1.6*10^-19 C
v= magnitude of velocity of proton
B= magnitude of magnetic field
m= mass of proton
to find the acceleration vector use the cross product of velocity & field in the above formulae
A proton that is loose in a magnetic field can have its velocity changed due to electromagnetic forces acting on the proton. It might be argued that the mass of the proton is changed as well, but this will only be true if the velocity of the proton is increased to a substantial portion of the speed of light. At something on the order of .9 c or so (where c is the speed of light), the mass of the proton begins to increase substantially as relativistic effects kick in.
Yes, charges align themselves according to a magnetic field. What is the question supposed to be?
Yes, any particle with charge can be accelerated in a magnetic field, it will just go the opposite direction than an electron would.
yes, cosmic rays. electromagnetic fields bend cosmic rays, thus the free protons in cosmic rays absorb energy of the electromagnetic flux lines and change direction.
Its velocity will change.
Electrons and Protons have a charge, which can be detected in a magnetic field. However, neutrons, as the name suggests, are neutrally charged (no charge). So neutrons would not be detected in a magnetic field.
Diamagnetic metals have a very weak and negative susceptibility to magnetic fields. Diamagnetic materials are slightly repelled by a magnetic field and the material does not retain the magnetic properties when the external field is removed. Diamagnetic materials are solids with all paired electron resulting in no permanent net magnetic moment per atom. Diamagnetic properties arise from the realignment of the electron orbits under the influence of an external magnetic field. Most elements in the periodic table, including copper, silver, and gold, are diamagnetic. Paramagnetic metals have a small and positive susceptibility to magnetic fields. These materials are slightly attracted by a magnetic field and the material does not retain the magnetic properties when the external field is removed. Paramagnetic properties are due to the presence of some unpaired electrons, and from the realignment of the electron orbits caused by the external magnetic field. Paramagnetic materials include magnesium, molybdenum, lithium, and tantalum. Ferromagnetic materials have a large and positive susceptibility to an external magnetic field. They exhibit a strong attraction to magnetic fields and are able to retain their magnetic properties after the external field has been removed. Ferromagnetic materials have some unpaired electrons so their atoms have a net magnetic moment. They get their strong magnetic properties due to the presence of magnetic domains.
Ti: 1s22s22p63s23p64s25d2 . It has a total of 22 electrons occupying these orbitals of these quantum numbers.
18 protons 18 electrons 22 neutrons
Roentgenium has 111 protons and electrons.
Energy is released when protons flip in a magnetic field. :)))))
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.
how is the movement of electrons in a conductor related to the formation of a magnetic field
That the beam of electrons were parallel with that of the magnetic field lines.
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.
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
The protons and neutrons a in the middle while the electrons circle the outer area of the atom's field.
The Northern lights (Aurora Borealis) form when there are solar protons and electrons travelling around the earth's magnetic lines. Most are not visible by the eye even on a dark night.
The term "magnetic field" refers to the strength of magnetism surrounding electrical currents or magnetic matter. Electrons play a large part in the process of magnetism, as moving electrons will generate a magnetic field.
Solar Radiation --answer-- Solar radiation - consisting mainly of electrons and protons and other particles - interacts wit the Earth's magnetic field, generally in the polar regions (north and south) where the field is strongest.
Protons are positively charged that's why they show electric field while magnetic field develops when electric field is in either direction so protons develops magnetic fields also.
All magnetic fields are caused by the movement of electrons. No moving electrons = no magnetic field. And if we have many electrons moving, then the magnetic field will accordingly be greater. 12 amp has 12 times the number of electrons flowing as does 1 amp.