A radioactive nucleus (initial mass number $A_o$ and atomic number Z) emits $3\, \alpha$-particles and $2\, positrons$. The ratio of number of neutrons to that of protons in the final nucleus will be
- $\frac{A-Z-8}{Z-4}$
- $\frac{A-Z-4}{Z-8}$
- $\frac{A-Z-12}{Z-4}$
- $\frac{A-Z-4}{Z-2}$
The Correct Option is B
Solution and Explanation
In positive beta decay a proton is transformed into a neutron and a positron is emitted. \(P^+ \longrightarrow n^0 + e^+\) no. of neutrons initially was A - Z no. of neutrons after decay (A - Z) - 3 x 2 (due to alpha particles) + 2 x 1 (due to positive beta decay) The no. of proton will reduce by 8. [as 3 x 2 (due to alpha particles) + 2(due to positive beta decay)] Hence atomic number reduces by 8.
The number of nuclei undergoing decay and the rate of decay per unit time are directly proportional to the total number of nuclei present in the given sample of the radioactive material, according to the law of radioactive decay, whenever the material experiences a decay.
Mathematical representation of the Law of radioactive decay:
The decay of the nucleus occurs in either of the 3 types of nuclear decay, namely:
- Alpha (α) – decay: in this decay, the helium nucleus is emitted.
- Beta (β) – decay: electrons are emitted.
- Gamma (γ) – decay: In this decay, the high-energy photons are emitted.
Top Questions on Nuclei
- The disintegration energy \( Q \) for the nuclear fission of \( ^{235}\text{U} \to ^{140}\text{Ce} + ^{94}\text{Zr} + n \) is _____ MeV.
Given atomic masses:
\[^{235}\text{U} = 235.0439 \, u, \quad ^{140}\text{Ce} = 139.9054 \, u, \quad ^{94}\text{Zr} = 93.9063 \, u, \quad n = 1.0086 \, u\]Value of \( c^2 = 931 \, \text{MeV/u} \). - The mass defect in a particular reaction is \( 0.4 \, \text{g} \). The amount of energy liberated is \( n \times 10^7 \, \text{kWh} \), where \( n = \) _____. (speed of light \( = 3 \times 10^8 \, \text{m/s} \))
- A nucleus has mass number \(A_1\) and volume \(V_1\). Another nucleus has mass number \(A_2\) and volume \(V_2\). If the relation between mass numbers is \(A_2 = 4A_1\), then \(\frac{V_2}{V_1} =\) _______.
- The mass number of nucleus having radius equal to half of the radius of nucleus with mass number 192 is:
- A nucleus at rest disintegrates into two smaller nuclei with their masses in the ratio of 2:1. After disintegration they will move
Questions Asked in AIEEE exam
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Concepts Used:
Nuclei
In the year 1911, Rutherford discovered the atomic nucleus along with his associates. It is already known that every atom is manufactured of positive charge and mass in the form of a nucleus that is concentrated at the center of the atom. More than 99.9% of the mass of an atom is located in the nucleus. Additionally, the size of the atom is of the order of 10-10 m and that of the nucleus is of the order of 10-15 m.
Read More: Nuclei
Following are the terms related to nucleus:
- Atomic Number
- Mass Number
- Nuclear Size
- Nuclear Density
- Atomic Mass Unit