42
20 Ca
81/36 kr
247 Cm 96
A daughter element of 24795 Am is 24796 Cm.
This is because the beta decay results in the "transmutation" of the element, where the element is changed by increasing or decreasing the number of proton charges, and hence the atomic number. The isotope of americium (Am) has 152 neutrons and 95 protons, while the curium (Cm) has 151 neutrons and 96 protons.
3581Br is stable and does not decay. If you are thinking, instead, that 3581Br is the daughter of beta decay, then the answer is that 3481Se decays by beta- decay to form 3581Br.
On Apex it said 81 36 Kr
247 over 96 Cm------> Apex Class!! (:
42 Ca 20
81 36 Br
These terms apply to the decay of radionuclides. The parent isotope is 'the starting point' of a decay series that when it decays, by giving off radiation, changes into another element, or isotope of the original element (the daughter isotope). For example: When Uranium 238 (parent isotope) decays and gives off an alpha particle, it transmutes into Thorium 234 (the daughter isotope).
Radio active parent elements decay to stable daughter elements i.e. the radio active parent Potassium 40 decays to Argon 40 Each radioactive isotope has it's own half life A half life is the time it takes for the parent radioactive element to decay to a daughter product, Potassium 40 decays to Argon 40 with a half life of 1 1/4 billion years. Therin lies the problem of storing nuclear waste
Negative beta (electron) decay; in which the mass number remains constant) and the atomic number of daughter atom in higher than the parent atom by one.
Uranium has a different decay chain/series for its different isotopes. Uranium 238 for example first decays to thorium 234 through alpha decay while U235 alpha decays to thorium 231. Both have different half lifes which can be found on a natural decay series chart for the said element. The thorium in either case then beta decays to another element.
In nuclear science, the decay chain refers to the radioactive decay of different discrete radioactive decay products as a chained series of transformations. Most radioactive elements do not decay directly to a stable state, but rather undergo a series of decays until eventually a stable isotope is reached.Decay stages are referred to by their relationship to previous or subsequent stages. A parent isotope is one that undergoes decay to form a daughter isotope. The daughter isotope may be stable or it may decay to form a daughter isotope of its own. The daughter of a daughter isotope is sometimes called a granddaughter isotope.
Parent and daughter in chemistry refer to radioactive decay, where a radioactive isotope of an element decays into another. For example, carbon-14 will beta-decay into nitrogen-14. The half-life associated with that particular process is about 5,700 years. The "parent" is carbon-14 and the "daughter" is nitrogen-14.
These terms apply to the decay of radionuclides. The parent isotope is 'the starting point' of a decay series that when it decays, by giving off radiation, changes into another element, or isotope of the original element (the daughter isotope). For example: When Uranium 238 (parent isotope) decays and gives off an alpha particle, it transmutes into Thorium 234 (the daughter isotope).
The atom that results from nuclear decay is called the daughter atom. The element of the daughter atom would be called the daughter element. The atom that decayed is called the parent.
209 83Bi
true
Radio active parent elements decay to stable daughter elements i.e. the radio active parent Potassium 40 decays to Argon 40 Each radioactive isotope has it's own half life A half life is the time it takes for the parent radioactive element to decay to a daughter product, Potassium 40 decays to Argon 40 with a half life of 1 1/4 billion years. Therin lies the problem of storing nuclear waste
False.
No. In both the cases the element would definitely change. As alpha particle comes out then the new element would have two less in atomic number where as in beta particle decay the new element will have one higher in atomic number.
One element decaying into another, which decays into another
Negative beta (electron) decay; in which the mass number remains constant) and the atomic number of daughter atom in higher than the parent atom by one.
Uranium-239 decays by beta- decay to neptunium-239.
227Ac89