Alpha particles are far more massive.
Alpha particle is an (ionized) helium atom, a beta particle is just an electron.
An alpha particle is most likely to transfer its energy through ionization and excitation of atoms in the medium it passes through. This process involves the removal of electrons from atoms and the promotion of electrons to higher energy levels, resulting in the production of free radicals and secondary particles.
A beta particle with low energy or a gamma ray with low energy might not be able to penetrate paper as paper can act as a barrier to these types of particles.
The electric charge of an alpha particle is positive. An alpha particle is a helium nucleus (which being a nucleus has a positive charge)
Film badges are typically designed to detect higher-energy radiation, such as gamma and beta particles. Alpha particles have low penetrating power and are usually stopped by air or a thin layer of material, which can prevent them from reaching the film inside the badge to create an image. As a result, film badges may not be sensitive enough to detect alpha particle radiation effectively.
An alpha particle has a charge of 2, which means it is positively charged.
An alpha particle is most likely to transfer its energy through ionization and excitation of atoms in the medium it passes through. This process involves the removal of electrons from atoms and the promotion of electrons to higher energy levels, resulting in the production of free radicals and secondary particles.
Gamma
energy
An alpha particle is equivalent to a helium-4 nucleus, or a helium-4 ion. A difference is that an alpha particle has a certain amount of energy associated with it, so it can said to be fast or hot. The energy is measured in thousands or millions of electron volts (keV or MeV).
Alpha particles with the same energy as beta particles have much less speed, magnetic field or no.
There are 2 neutron in an alpha particle.
An electron is to a beta particle as helium is to an alpha particle. Both beta particles and alpha particles are types of radioactive decay products, with beta particles being high-energy electrons and alpha particles being helium nuclei consisting of two protons and two neutrons.
Alpha Particle
For a given amount of energy, yes. Because its the most massive.
Yes, the alpha particle is nonfundamental.
A beta particle with low energy or a gamma ray with low energy might not be able to penetrate paper as paper can act as a barrier to these types of particles.
When a fusion reaction converts a pair of hydrogen isotopes, such as deuterium and tritium, to an alpha particle and a neutron, most of the energy released is in the form of kinetic energy. This energy primarily manifests as the motion of the products—specifically, the alpha particle and the neutron—resulting in high-speed particles that carry away the energy. Additionally, some energy may be released as electromagnetic radiation, such as gamma rays.