ultra voilet rays are characterized with high penetrating power ============================= The EM radiation with the highest penetrating power would be the flavor with the highest frequency/shortest wavelength. Those are the waves we call "gamma rays". A moment's thought will remind you that X-rays are more penetrating than ultraviolet rays are ... otherwise we'd be getting dental ultraviolets instead of dental X-rays.
Alpha being so massive penetrates with less power. Beta lighter yet massive has less penetrating power. But gamma being just a radiation/non-massive photon penetrates with highest power
Low ionising power results from great penetrating power.
Neutrinos.
alpha
ultra voilet rays are characterized with high penetrating power ============================= The EM radiation with the highest penetrating power would be the flavor with the highest frequency/shortest wavelength. Those are the waves we call "gamma rays". A moment's thought will remind you that X-rays are more penetrating than ultraviolet rays are ... otherwise we'd be getting dental ultraviolets instead of dental X-rays.
Gamma, i.e. photon emitted from the nucleus, has the highest penetrating power.
Alpha being so massive penetrates with less power. Beta lighter yet massive has less penetrating power. But gamma being just a radiation/non-massive photon penetrates with highest power
Of the "basic" types of particulate radiation, the neutron has the highest penetrating ability. It is much more penetrating than the electron, positron, proton, or alpha particle.
Low ionising power results from great penetrating power.
Neutrinos.
Beta particles have a very low penetrating power; an aluminium foil of 3-4 mm is a sufficient shielding.
the neutrino
The most penetrating X-rays are the highest frequency (shortest wavelength) X-rays. They are the most energetic, and we sometimes refer to them as hard X-rays.
alpha ray.
Gamma Ray
Gamma rays