Question #72e37

1 Answer
Dec 5, 2015

Here's what I got.

Explanation:

It's worth noting that all of these decay types will result in nuclear transmutation, i.e. the atoms of the elements that are undergoing radioactive decay will be converted to atoms of different elements.

Plutonium-242 will undergo alpha decay, which means that its nucleus will emit an alpha particle.

An alpha particle is essentially the nucleus of a helium-4 atom, #""_2^4"He"#. As a result of the alpha particle emission, the nucleus' atomic number will decrease by #2# and its mass number will decrease by #4#.

This tells you that the resulting isotope will have an atomic number equal to

#Z = 94 - 2 = 92#

and a mass number equal to

#A = 242 - 4 = 238#

A quick look in the periodic table will reveal that the resulting isotope is uranium-238

#""_94^242"Pu" -> ""_92^238"U" + ""_2^4alpha#

Beryllium-7 will decay via electron capture, during which an inner-orbital electron is being captured by the nucleus.

This process leads to the conversion of a proton to a neutron and the emission of an electron neutrino. As a result, the nucleus' atomic number will decrease by #1#, but its mass number will remain unchanged.

So, the resulting isotope will have

#Z = 4 - 1 =3" "# and #" "A = 7#

A quick look in the periodic table will show that you're dealing with lithium-7

#""_3^7"Be" + ""_text(-1)^0"e" -> ""_3^7"Li" + ""_0^0nu_e#

http://evolutiondismantled.com/accelerated-decay

Finally, oxygen-15 decays via positron emission, also known as #beta^+# decay, during which a proton located in the nucleus is converted into a neutron.

The nucleus will emit a positron, the antiparticle of the electron, and an electron neutrino. Positron emission will decrease the atomic number of the nucleus by #1# and leave the mass number unchanged.

The resulting isotope will have

#Z = 8 - 1 = 7" "# and #" "A = 15#

Another quick look in the periodic table will reveal that you're dealing with nitrogen-15.

#""_8^15"O" -> ""_7^15"N" + ""_text(+1)^0"e" + ""_0^0nu_e#