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Photons, gluons, and neutrinos have no charge, and are thus not deflected by a magnetic field.
Quarks, with a charge of +2/3 for the up, and -1/3 for the down, are deflected by magnetic fields, however, quarks assemble into larger particles such as protons and neutrons. The neutron, two down quarks and one up quark, has a net charge of zero, and is also not deflected by magnetic fields.
What else can I help you with?
Is not deflected by a magnetic field by the radioactive emission?
Gamma rays .
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.
Why do atoms need to be ionised in a mass spectrometer?
it is necessary to ionize the compouned or element used in the expirement because ONLY electrically charged particles (IONS) are affected by the magnetic field . (i.e : only ions are deflected by the magnetic field )Hope that this was helpful !!
How did thomas discover the electron?
J. J. Thomson discovered the electron using an experiment involving cathode rays and a magnetic field. When subjected to the magnetic field, the cathode ray was deflected. If the magnetic field was flipped, the cathode ray was deflected in the opposite direction. This proved that a cathode ray was a stream of negatively charged particles that would later be deemed electrons.
Why can't electricity pass threw a magnetic field?
An electric current has no trouble at all passing through a magnetic field, however it is deflected. This is how the old CRT picture tubes that used to be used in TVs and computer monitors operated. In space electric currents deflected by magnetic fields actually follow helical paths along the lines of magnetic flux.
Why is the magnetic needle deflected?
The magnetic needle is deflected due to the presence of a magnetic field that acts on the needle's own magnetic field, causing it to align in the direction of the external field. This deflection is governed by the principles of magnetism and electromagnetism.
Would a neutron be deflected by a maagnetic field why or why not?
Yes, a neutron can be deflected by a magnetic field because it is a charged particle. The movement of the neutron will be influenced by the Lorentz force, which occurs when a charged particle moves through a magnetic field.
Are x rays deflected by magnetic field?
nup.
Why beta and alpha particles deflected when they pass the magnetic field?
Alpha and beta particles are deflected by a magnetic field because they have charge and, as such, are affected by the electromagnetic interaction or force.
Why are beta alpha particles deflected when pass the magnetic field?
Beta particles are deflected in a magnetic field due to their electric charge. Beta particles are either negative (beta-) or positive (beta+) charged, so they experience a force when passing through a magnetic field, causing them to be deflected from their original path.
Is not deflected by a magnetic field by the radioactive emission?
Gamma rays .
Which way will negatively charged particle be deflected by a magnetic field?
A negatively charged particle will be deflected in a direction perpendicular to both its velocity and the magnetic field when moving through the field. This is due to the Lorentz force, which acts on the particle in a direction perpendicular to both its velocity and the magnetic field lines.
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.
Are gamma rays deflected by magnetic field?
Yes, gamma rays can be deflected by a magnetic field. This deflection occurs due to the interaction between the electromagnetic field of the gamma rays and the magnetic field, causing the gamma rays to change direction. This phenomenon is known as magnetic deflection and is commonly observed in high-energy particle physics experiments.
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.
Which of the two charged particles of the same mass but different velocity will be deflected the most in magnetic field and why?
The charged particle with the higher velocity will be deflected the most in a magnetic field. This is because the magnetic force experienced by a charged particle is directly proportional to its velocity. Therefore, a higher velocity particle will experience a greater magnetic force and be deflected more.
A cathode ray produced in a gas-filled tube is deflected by a magnetic field A wire carrying an electric current can be pulled by a magnetic field A cathode ray is deflected away from a negatively?
A cathode ray in a gas-filled tube is deflected by a magnetic field due to the Lorentz force acting on the charged particles in the ray. A wire carrying an electric current can be pulled by a magnetic field through the interaction of the magnetic field and the moving charges in the wire. A cathode ray is deflected away from a negatively charged object due to the repulsion between the negatively charged object and the negatively charged particles in the cathode ray.
