Alpha radiation is essentially a Helium nucleus without any electrons- thus an alpha particle is as large as the four constituent nucleons.
Gamma radiation is made up of photons- thus gamma radiation is much like light in that it is energy traveling in a wave with particle properties.
An alpha particle is a positively charged particle which has an Atomic Mass unit 4. It is double time bigger than that of helium
Its size mass and charge is similar to electron about 1836 times less than a proton.
The photons that make up the gamma rays (or other types of electromagnetic radiation) are basically point-like particles. No size.If you mean the wavelength, it is 10 pm or less.
Beta particles, from beta- decay, have a charge of -1. Beta particles, from beta+ decay, have a charge of +1. Alpha particles have a charge of +2.
alpha particles=8 and beta particles=6
Both Beta and alpha particles can be blocked by a block of lead. Alpha particles can even be blocked by a sheet of paper, and beta particles can be blocked by a thin aluminium plate.
because alfa particle have a tendency to move in air then beta particles
The "beta decay" is named after the type of particles emitted - beta particles.A beta particle is either an electron, or an anti-electron (a.k.a. "positron").
Beta particles, from beta- decay, have a charge of -1. Beta particles, from beta+ decay, have a charge of +1. Alpha particles have a charge of +2.
The mass and size of an alpha particle compare with the masa and size of beta particle in the sense that the alpha particle is significantly larger in both size and mass that the beta and gamma particles. This is why it is called the alpha particle.
Beta particles are not stopped by a paper sheet.
Low energy beta particles, say, from tritium, are called soft beta particles.
alpha particles=8 and beta particles=6
Thin sheet or plastic may prevent beta particles.
Beta particles are often used in smoke detectors.
Beta Particles have a negative charge,In Beta decay a neutron changes into a proton and a beta particle, an electron.
The range of beta particles in the air is up to several hundred feet. Beta particles are emitted by specific types of radioactive nuclei. Potassium-40 is a type of radioactive nuclei that emits beta particles.
Both Beta and alpha particles can be blocked by a block of lead. Alpha particles can even be blocked by a sheet of paper, and beta particles can be blocked by a thin aluminium plate.
The minimum protection against exposure to beta particles is a thin sheet of metal or plastic. Beta particles are classified as subatomic particles.
What is the range of beta particles in air as compare to alpha particles?Read more: What_is_the_range_of_beta_particles_in_air_as_compare_to_alpha_particles