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What is a high energy ray emitted from some radioactive atoms that is not affected by a magnetic field?
A high energy ray emitted from some radioactive atoms that is not affected by a magnetic field is called a gamma ray. Gamma rays are a form of electromagnetic radiation with the highest frequency and energy in the electromagnetic spectrum. They are often produced during radioactive decay processes and can penetrate materials easily.
Is gamma radiation effected by a magnetic field?
Nothing. The gamma ray is not deflected by a magnetic field, which demonstrates that unlike the alpha and beta rays, the gamma is not a stream of charged particles, but is electromagnetic radiation.
Is the charge of gamma ray?
it has no charges
How magnetic field is related with cathode rays in physics?
Cathode rays are negatively charged particles that move in curved paths in the presence of a magnetic field. The direction and curvature of the cathode rays can be controlled by adjusting the strength and orientation of the magnetic field. This phenomenon is known as the magnetic deflection of cathode rays and is used in devices like cathode ray tubes.
Is a gamma ray an example of a mechanical wave?
No. A gamma ray is a very high frequency electromagnetic wave. Electromagnetic waves propagate as a combination of changing electric field and changing magnetic field. Electromagnetic waves can travel through empty space without any medium. Mechanical waves (such as sound and water waves) propagate by the oscillating particles of the medium - they require a medium to move through.
What is a high energy ray emitted from some radioactive atoms that is not affected by a magnetic field?
A high energy ray emitted from some radioactive atoms that is not affected by a magnetic field is called a gamma ray. Gamma rays are a form of electromagnetic radiation with the highest frequency and energy in the electromagnetic spectrum. They are often produced during radioactive decay processes and can penetrate materials easily.
Is gamma radiation effected by a magnetic field?
Nothing. The gamma ray is not deflected by a magnetic field, which demonstrates that unlike the alpha and beta rays, the gamma is not a stream of charged particles, but is electromagnetic radiation.
Is the charge of gamma ray?
it has no charges
How magnetic field is related with cathode rays in physics?
Cathode rays are negatively charged particles that move in curved paths in the presence of a magnetic field. The direction and curvature of the cathode rays can be controlled by adjusting the strength and orientation of the magnetic field. This phenomenon is known as the magnetic deflection of cathode rays and is used in devices like cathode ray tubes.
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.
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.
Is a gamma ray an example of a mechanical wave?
No. A gamma ray is a very high frequency electromagnetic wave. Electromagnetic waves propagate as a combination of changing electric field and changing magnetic field. Electromagnetic waves can travel through empty space without any medium. Mechanical waves (such as sound and water waves) propagate by the oscillating particles of the medium - they require a medium to move through.
What type of radiation is not affected by magnetic fields?
Charged particles will be deflected by an electric field. The movement of any charged particle through an electric field will cause that charged particle to be attracted by one pole of the field and repelled by the other. That leaves uncharged particulate radiation, like a neutron, and electromagnetic radiation that will not be deflected by an electric field. The electromagnetic radiation will include X-rays and gamma rays.
The strongest known magnetic field is that of?
A magnetar, a type of neutron star with an extremely powerful magnetic field, has the strongest known magnetic field in the universe, reaching around a billion Tesla at its surface. Magnetars are formed from the remnants of supernova explosions and exhibit intense magnetic field effects such as X-ray emissions and gamma-ray bursts.
Do X-ray waves need a medium?
No. X-rays are a form of electromagnetic wave. Electromagnetic waves self-propagate by generating their own electrical and magnetic fields.
What type of particle would not be deflected by a magnetic field?
A neutron, an antineutron, a neutrino, an antineutrino, and a photon would not be deflected by a magnetic field, as they all have no net electric charge. I do not find a reference to an antiphoton, but it makes sense that, if it existed, it would also not be affected by a magnetic field.
Why beta particle is not deflected by strong magnatic field?
Beta particles are electrons (β-) or positrons (β+), which have a very small mass and charge. Due to their small mass, they are not significantly affected by a strong magnetic field as their momentum is not large enough to cause a substantial deflection. The force experienced by a charged particle in a magnetic field is proportional to its charge, velocity, and the strength of the magnetic field, and for beta particles, this force is typically not enough to cause a noticeable deflection.
