Download App

Nuclei — Physics STD 12 Science — Question

Rajasthan BoardEnglish MediumSTD 12 SciencePhysicsNuclei3 Marks
Question
Explain with example, whether the neutron-proton ratio in a nucleus increases or decreases due to $\beta-$decay.

Answer

In $\beta-$decay a neutron is converted into a proton, so the neutron-proton ratio decreases. Equation of $\beta-$decay is:
$\text{zX}^\text{A}\rightarrow\text{Z}+_1\text{Y}^\text{A}+_{-1}\beta^0+\bar{\text{v}}$
$_{90}\text{Th}^{234}\ \rightarrow\ _{91}\text{Pa}^{234}+_{-1}\beta^0+\bar{\text{v}}$
Neutron to proton ratio before $\beta-$decay $=\frac{234-91}{90}=\frac{144}{90}=1.60$
Neutron to proton ratio aftere $\beta-$decay $=\frac{234-91}{91}=\frac{143}{91}=1.57$
$\frac{143}{91}<\frac{144}{90},$ so neutron to proton ratio in $\beta-$decay decreases.

Need a full question paper?

Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.

Start Generating Free

Explore more

More "3 Marks Question" from NucleiNuclei — all question typesPhysics STD 12 Science question papersRajasthan Board STD 12 Science question papersRajasthan Board question paper generator

Similar questions

Define relaxation time of the free electrons drifting in a conductor. How is it related to the drift velocity of free electrons? Use this relation to deduce the expression for the electrical resistivity of the material. 
Two sources of sound $, S_1$ and $S_2,$ emitting waves of equal wavelength $20.0\ cm,$ are placed with a separation of $20.0\ cm$ between them. A detector can be moved on a line parallel to $S_1 ,S_2,$ and at a distance of $20.0\ cm$ from it. Initially, the detector is equidistant from the two sources. Assuming that the waves emitted by the sources are in phase, find the minimum distance through which the detector should be shifted to detect a minimum of sound.
Does the force on a charge due to another charge depend on the charges present nearby?
The potential barrier existing across an unbiased $p-n.$ junction is $0·2$ volt. What minimum kinetic energy a hole should have to diffuse from the $p-$side to the $n-$side if,
  1. The junction is unbiased.
  2. The junction is forwardbiased at $0.1$ volt.
  3. The junction is reverse-biased at $0.1$ volt$?$
In a p-n junction, a potential barrier of 250meV exists across the junction. A hole with a kinetic energy of 300meV approaches the junction. Find the kinetic energy of the hole when it crosses the junction if the hole approached the junction.
  1. From the p-side.
  2. From the n-side.
Let $\varepsilon_1$ and $\varepsilon_2$ be the angles made by $\overrightarrow{\text{A}}$ and $-\overrightarrow{\text{A}}$ with the positive X-axis. Show that $\tan\varepsilon_1=\tan\varepsilon_2.$ Thus, giving tane does not uniquely determine the direction of $\overrightarrow{\text{A}}.$
  1. The refractive index of glass is $1.5.$ What is the speed of light in glass? $($Speed of light in vacuum is $3.0 \times 10^8 ms^{–1}).$
  2. Is the speed of light in glass independent of the colour of light? If not, which of the two colours red and violet travels slower in a glass prism?
A semicircular wire has a length $L$ and mass $M.A$ particle of mass $m$ is placed at the centre of the circle. Find the gravitational attraction on the particle due to the wire.
i. Differentiate between three segments of a transistor on the basis of their size and level of doping.
ii. When is a transistor said to be in active state?
iii. Draw a plot of transfer characteristic ($V _0$ vs. $V _{ i }$ ) and show which portion of the characteristic is used in amplification and why?
iv. Draw the circuit diagram of the base bias transistor amplifier in CE configuration and briefly explain its working.
A thin prism is made of a material having refractive indices 1.61 and 1.65 for red and violet light. The dispersive power of the material is 0.07. It is found that a beam of yellow light passing through the prism suffers a minimum deviation of 4.0° in favourable conditions. Calculate the angle of the prism.