There were 3 types of radioactivities: Alpha, Beta, and Gamma.
Alpha: Made from 2 protons and 2 neutrons
Charge: +2
Mass: 4
Speed: 1/10 the speed of light
Ionising power/Danger: Very High
Stopped by: 4cm of air or thick paper
Beta: Made from one electron
Charge: -1
Mass: 1/1800
Speed: 9/10 the speed of light
Ionising power/Danger: Medium
Stopped by: 3-5mm aluminium/led
Gamma: Is an electromagnetic wave
Charge: no charge
Mass: 0
Speed: = speed of light
Ionising power/Danger: Very low
Stopped by: Can't be stopped (unstoppable)
There are two isotopes of Indium ordinarily found in nature, of which 95.7% is radioactive 115In and 4.3% is stable 113In. The half life of 115In is so long, at 441,000,000,000,000 years, that for most purposes it can be treated as stable. Like all elements, indium has synthetic radioactive isotopes.
There are different types of Radioactivity, ALPHA, BETA and GAMMA Radiation.
radioactive (unstable isotope) and non-radioactive.
1. Tritium = H3
2. Carbon14
3. Uranium 235
Here are a few types of radioisotopes: Uranium-238 Radium-226 Sodium-24 Cobalt-60
Stable isotopes and radioactive isotopes. Radioactive isotopes will lose the extra neutrons and decay into another isotope.
That one The structure that would contain the most radioactivity would be chromosomes, because chromosomes are made up of DNA.
One types is Asperger's Syndrome
types of cloning
6 types of evolution
The 5 types of fungi are...SacZygoteClubLichenImperfectHope that helps!
There are several types of radioactivity. Some of these types of radioactivity include gamma rays, beta particles, as well as alpha particles.
Certain types of spiderwort are used to detect radioactivity. Specifically the Ohio spiderwort, Tradscantia ohiensis can show low levels of radioactivity when the stamen hairs, which are normally blue, grow pink as a result of genetic mutation.
uranium is mainly related to radioactivity so i think that it is widely used in these types of works.
No. Neither an electron nor an anti-electron will decay by themselves. If a positron (anti-electron) encounters an electron, both will get destroyed, but this is not radioactivity. Radioactivity is normally used for atoms, and refers to the fact that they decay spontaneously.Beta rays, however, are the result of certain types of radioactive decay.No. Neither an electron nor an anti-electron will decay by themselves. If a positron (anti-electron) encounters an electron, both will get destroyed, but this is not radioactivity. Radioactivity is normally used for atoms, and refers to the fact that they decay spontaneously.Beta rays, however, are the result of certain types of radioactive decay.No. Neither an electron nor an anti-electron will decay by themselves. If a positron (anti-electron) encounters an electron, both will get destroyed, but this is not radioactivity. Radioactivity is normally used for atoms, and refers to the fact that they decay spontaneously.Beta rays, however, are the result of certain types of radioactive decay.No. Neither an electron nor an anti-electron will decay by themselves. If a positron (anti-electron) encounters an electron, both will get destroyed, but this is not radioactivity. Radioactivity is normally used for atoms, and refers to the fact that they decay spontaneously.Beta rays, however, are the result of certain types of radioactive decay.
Radioactivity affect the water molecules. Radioactivity makes it harmful
Different types of radioactivity have different amounts of energy and this directly impacts the half life. More energy will decrease the half life because it quickly gives off the unstable energy.
What other sort of radioactivity is there?
For example natural and artificial radioactivity.
Radioactivity can be induced in ordinary matter by artificial transmutation.
You cannot measure radioactivity in litres
Radioactivity in Japan is about 15,000 terabecquerels.
Human + A lot of radioactivity = Dead