the half life of 6c pow 14 lambda 231 times 10 pow 4peryear

The half-life of $$_6{C^{14}},\left( {\lambda = 2.31 \times {{10}^{ - 4}}\,{\text{per}}\,{\text{year}}} \right)$$ is

A. $$2 \times {10^2}\,yr$$

B. $$3 \times {10^3}\,yr$$

C. $$3.3 \times {10^4}\,yr$$

D. $$4 \times {10^3}\,yr$$

Answer : $$3 \times {10^3}\,yr$$

Solution :
$$\eqalign{ & {\text{Radioactive decay is first order reaction}}{\text{.}} \cr & {\text{So,}}\,\,\,\lambda {\text{ = }}\frac{{0.693}}{{{t_{\frac{1}{2}}}}} \cr & \therefore \,\,\,{t_{\frac{1}{2}}} = \frac{{0.693}}{{2.31 \times {{10}^{ - 4}}}}yr \cr & = 0.3 \times {10^4} \cr & = 3 \times {10^3}\,yr \cr} $$

Releted MCQ Question on
Physical Chemistry >> Nuclear Chemistry

Releted Question 1

A nuclide of an alkaline earth metal undergoes radioactive decay by emission of three $$\alpha $$ - particles in succession. The group of the periodic table to which the resulting daughter element would belong is

A. group 14

B. group 16

C. group 4

D. group 6

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Releted Question 2

The radioactive isotope $$_{27}C{o^{60}}$$ which is used in the treatment of cancer can be made by $$(n, p)$$ reaction. For this reaction the target nucleus is

A. $$_{28}N{i^{59}}$$

B. $$_{27}C{o^{59}}$$

C. $$_{28}N{i^{60}}$$

D. $$_{27}C{o^{60}}$$

View Answer

Releted Question 3

The radio isotope, tritium $$\left( {_1{H^3}} \right)$$ has a half-life of $$12.3$$ $$yr.$$ If the initial amount of tritium is $$32$$ $$mg,$$ how many milligrams of it would remain after $$49.2$$ $$yr?$$

A. 4$$\,mg$$

B. 8$$\,mg$$

C. 1$$\,mg$$

D. 2$$\,mg$$

View Answer

Releted Question 4

$$_{92}{U^{235}}$$ nucleus absorb a neutron and disintegrate in $$_{54}X{e^{139}},{\,_{38}}S{r^{94}}$$ and $$X,$$ so what will be the product $$X ?$$

A. 3-neutrons

B. 2-neutrons

C. $$\alpha $$ -particle

D. $$\beta $$ -particle

View Answer

The half-life of $$_6{C^{14}},\left( {\lambda = 2.31 \times {{10}^{ - 4}}\,{\text{per}}\,{\text{year}}} \right)$$ is

Releted MCQ Question on
Physical Chemistry >> Nuclear Chemistry

A nuclide of an alkaline earth metal undergoes radioactive decay by emission of three $$\alpha $$ - particles in succession. The group of the periodic table to which the resulting daughter element would belong is

The radioactive isotope $$_{27}C{o^{60}}$$ which is used in the treatment of cancer can be made by $$(n, p)$$ reaction. For this reaction the target nucleus is

The radio isotope, tritium $$\left( {_1{H^3}} \right)$$ has a half-life of $$12.3$$ $$yr.$$ If the initial amount of tritium is $$32$$ $$mg,$$ how many milligrams of it would remain after $$49.2$$ $$yr?$$

$$_{92}{U^{235}}$$ nucleus absorb a neutron and disintegrate in $$_{54}X{e^{139}},{\,_{38}}S{r^{94}}$$ and $$X,$$ so what will be the product $$X ?$$

Practice More Releted MCQ Question on
Nuclear Chemistry

Practice More MCQ Question on Chemistry Section

The half-life of $$_6{C^{14}},\left( {\lambda = 2.31 \times {{10}^{ - 4}}\,{\text{per}}\,{\text{year}}} \right)$$ is

Releted MCQ Question on Physical Chemistry >> Nuclear Chemistry

A nuclide of an alkaline earth metal undergoes radioactive decay by emission of three $$\alpha $$ - particles in succession. The group of the periodic table to which the resulting daughter element would belong is

The radioactive isotope $$_{27}C{o^{60}}$$ which is used in the treatment of cancer can be made by $$(n, p)$$ reaction. For this reaction the target nucleus is

The radio isotope, tritium $$\left( {_1{H^3}} \right)$$ has a half-life of $$12.3$$ $$yr.$$ If the initial amount of tritium is $$32$$ $$mg,$$ how many milligrams of it would remain after $$49.2$$ $$yr?$$

$$_{92}{U^{235}}$$ nucleus absorb a neutron and disintegrate in $$_{54}X{e^{139}},{\,_{38}}S{r^{94}}$$ and $$X,$$ so what will be the product $$X ?$$

Practice More Releted MCQ Question on Nuclear Chemistry

Practice More MCQ Question on Chemistry Section

Releted MCQ Question on
Physical Chemistry >> Nuclear Chemistry

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Nuclear Chemistry