alpha radiation :)
alpha radiation
no
It absorbed by the exosphere
Gamma radiation is not easily absorbed by the human body(not as easily as alpha and beta anyway). So it can penetrate to the internal organs and harm them.
Gamma Radiation penetrates farther than x-rays, which are partly absorbed by thick material such as bones.
alpha radiation
no
It absorbed by the exosphere
The darkness or lightness by itself doesn't affect the heat capacity, only how easily radiation will be absorbed - and emitted.The darkness or lightness by itself doesn't affect the heat capacity, only how easily radiation will be absorbed - and emitted.The darkness or lightness by itself doesn't affect the heat capacity, only how easily radiation will be absorbed - and emitted.The darkness or lightness by itself doesn't affect the heat capacity, only how easily radiation will be absorbed - and emitted.
The most easily absorbed radioactive is Alpha
Most of the solar radiation is absorbed when it reaches the surface of the earth. Some of the solar radiation is also absorbed in the atmosphere.
Gamma radiation is not easily absorbed by the human body(not as easily as alpha and beta anyway). So it can penetrate to the internal organs and harm them.
Radiation is absorbed maily because of resonance.
Most of it is absorbed. UV is the harmful radiation of the sun.
Other than the light, heat, and UV radiation (which can be reflected by most metals) from a nuclear bomb, nothing can reflect the radiation.The various forms of nuclear radiation are absorbed not reflected:alpha radiation is completely absorbed by one ordinary sheet of paper, no metal is neededbeta radiation can be absorbed by most metals very efficientlygamma radiation is poorly absorbed and can pass through many feet of even very dense metals like lead and uraniumneutron radiation is poorly absorbed and can pass through many feet of even very dense metals like lead
Gamma Radiation penetrates farther than x-rays, which are partly absorbed by thick material such as bones.
Thermal IR radiation.