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An alpha particle, which is a 24He nucleus, has a mass of 4 and a charge of +2. A beta particle has a charge of +1 or -1, depending on whether it is a positron (beta +) or an electron (beta -). It's mass is minuscule compared to the alpha particle, and it will undergo a comparatively huge deflection in the same field as an alpha particle would. Though the alpha particle has twice the charge as a beta particle, it has several thousand times the mass of that beta particle. As it is so much more massive than the beta particle, its inertia will be much more difficult to overcome even though it has twice the charge.
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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.
When a beam of alpha particles passes between two electrically charged plates which plate is the beam deflected toward?
The beam of alpha particles is deflected toward the negatively charged plate. This is because alpha particles are positively charged, and opposite charges attract each other.
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.
Why are alpha and beta rays bent in different directions?
Alpha particles are heavier and carry a positive charge, so they are more easily deflected by electromagnetic fields in a different direction than beta particles, which are lighter and negatively charged. This can occur if they pass through a medium that causes them to ionize and interact differently due to their mass and charge differences.
Which type of radiation is deflected from its oringinal path when it strikes an object?
Alpha radiation is deflected from its original path when it strikes an object due to interactions with the atoms of the material. Alpha particles have a larger mass and positive charge, making them more likely to interact and be deflected by the electrons in the material.
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.
Why were few alpha particles deflected?
some of alpha particles were deflected through an angle of 90 degree
When a beam of alpha particles passes between two electrically charged plates which plate is the beam deflected toward?
The beam of alpha particles is deflected toward the negatively charged plate. This is because alpha particles are positively charged, and opposite charges attract each other.
When a beam of alpha particles passes between two electrically charged plates - which plate is the beam deflected toward?
The beam would be deflected to the negative plate, as alpha particles are Helium nuclei and are positively charged.
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.
Why are alpha and beta rays bent in different directions?
Alpha particles are heavier and carry a positive charge, so they are more easily deflected by electromagnetic fields in a different direction than beta particles, which are lighter and negatively charged. This can occur if they pass through a medium that causes them to ionize and interact differently due to their mass and charge differences.
Which type of radiation is deflected from its oringinal path when it strikes an object?
Alpha radiation is deflected from its original path when it strikes an object due to interactions with the atoms of the material. Alpha particles have a larger mass and positive charge, making them more likely to interact and be deflected by the electrons in the material.
What is the opposite of the alpha male?
The opposite of an Alpha is an Omega. The counterpart to an Alpha male would of course be an Alpha Female.
Why alpha particles is a threat to humans?
Alpha particles ARE not a threat to humans. They can be deflected by nothing more than a sheet of paper.
Why is an alpha particle attracted to a negative plate?
An alpha particle is made up of two protons and two neutrons, giving it a positive charge. As opposite charges attract, the positive charge of the alpha particle is attracted to the negative charge of the plate.
Why do alpha and beta rays deflect in an opposite direction?
Alpha particles deflect backwards due to repulsive electrostatic force between the particles and nucleus. They are all charged positively (like charges repel), hence the repulsive electrostatic force
