in the nucleus of 11na pow 23 the number of protons

In the nucleus of $$_{11}N{a^{23}},$$ the number of protons, neutrons and electrons are

A. 11, 12, 0

B. 23, 12, 11

C. 12, 11, 0

D. 23, 11, 12

Answer : 11, 12, 0

Solution :
A nucleus of mass number $$A$$ and atomic number $$Z$$ contains $$Z$$ protons and $$\left( {A - Z} \right)$$ neutrons. As an atom is electrically neutral, therefore number of peripheral electrons must be equal to $$Z,$$ the number of protons inside the nucleus. In $$_{11}N{a^{23}},Z = 11$$ i.e. number of protons = 11,
Mass number $$A = 23$$
Number of neutrons $$ = A - Z = 23 - 11 = 12$$
There is no electron in the nucleus. So, number of protons, neutrons and electrons are 11, 12, 0.

Releted MCQ Question on
Modern Physics >> Atoms or Nuclear Fission and Fusion

Releted Question 1

The equation
$$4_1^1{H^ + } \to _2^4H{e^{2 + }} + 2{e^ - } + 26MeV$$ represents

A. $$\beta $$ -decay

B. $$\gamma $$ -decay

C. fusion

D. fission

View Answer

Releted Question 2

Fast neutrons can easily be slowed down by

A. the use of lead shielding

B. passing them through water

C. elastic collisions with heavy nuclei

D. applying a strong electric field

View Answer

Releted Question 3

In the nuclear fusion reaction
$$_1^2H + _1^3H \to _2^4He + n$$
given that the repulsive potential energy between the two nuclei is $$ \sim 7.7 \times {10^{ - 14}}J,$$ the temperature at which the gases must be heated to initiate the reaction is nearly
[Boltzmann’s Constant $$k = 1.38 \times {10^{ - 23}}J/K$$ ]

A. $${10^7}K$$

B. $${10^5}K$$

C. $${10^3}K$$

D. $${10^9}K$$

View Answer

Releted Question 4

The binding energy per nucleon of deuteron $$\left( {_1^2H} \right)$$ and helium nucleus $$\left( {_2^4He} \right)$$ is $$1.1\,MeV$$ and $$7\,MeV$$ respectively. If two deuteron nuclei react to form a single helium nucleus, then the energy released is

A. $$23.6\,MeV$$

B. $$26.9\,MeV$$

C. $$13.9\,MeV$$

D. $$19.2\,MeV$$

View Answer

In the nucleus of $$_{11}N{a^{23}},$$ the number of protons, neutrons and electrons are

Releted MCQ Question on
Modern Physics >> Atoms or Nuclear Fission and Fusion

The equation
$$4_1^1{H^ + } \to _2^4H{e^{2 + }} + 2{e^ - } + 26MeV$$ represents

Fast neutrons can easily be slowed down by

The binding energy per nucleon of deuteron $$\left( {_1^2H} \right)$$ and helium nucleus $$\left( {_2^4He} \right)$$ is $$1.1\,MeV$$ and $$7\,MeV$$ respectively. If two deuteron nuclei react to form a single helium nucleus, then the energy released is

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The equation $$4_1^1{H^ + } \to _2^4H{e^{2 + }} + 2{e^ - } + 26MeV$$ represents

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The binding energy per nucleon of deuteron $$\left( {_1^2H} \right)$$ and helium nucleus $$\left( {_2^4He} \right)$$ is $$1.1\,MeV$$ and $$7\,MeV$$ respectively. If two deuteron nuclei react to form a single helium nucleus, then the energy released is

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$$4_1^1{H^ + } \to _2^4H{e^{2 + }} + 2{e^ - } + 26MeV$$ represents

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