ScienceClass 9Journey Inside the Atom

Journey Inside the Atom | Class 9 Science Notes

By ConceptScroll Team · Published on 17 July 2026 · 4 min read

Journey Inside the Atom – this guide gives you a concise, exam-ready overview of Journey Inside the Atom from Class 9 Science, written by ConceptScroll editors and reviewed against the latest NCERT textbook.

8.2.3 Bohr's model of the atom

Niels Bohr proposed a new atomic model in 1913 to explain atomic stability and the discrete emission spectra of atoms. According to Bohr:

  • Electrons revolve around the nucleus in fixed circular paths called stationary states, or shells, where they have definite energy.
  • These shells are labeled K, L, M, N, ... or by numbers n = 1, 2, 3, 4, ... with K (n=1) being closest to the nucleus.
  • Electrons do not lose energy while moving in these fixed orbits.
  • Energy increases with distance from the nucleus; outer shells have higher energy.
  • Electrons can jump between shells by absorbing or emitting energy equal to the difference between energy levels.
  • Each shell can hold a limited number of electrons, given by the formula 2n².

Bohr's model explained why electrons do not spiral into the nucleus and accounted for the stability of atoms. It also explained the line spectra of hydrogen and other elements.

The naming of shells as K, L, M, N originated from early X-ray studies by Charles Barkla, which Bohr adopted.

Although Bohr's model was a major advancement, it had limitations and was later superseded by quantum mechanical models.

📊 Diagram: Fig. 8.7 shows energy levels K, L, M, N with increasing energy away from nucleus.

🧪 Activity: Threads of Curiosity about naming of shells and limitations of Bohr's model.

🔗 Connection: Leads to discovery of neutron and further atomic structure details.

Frequently asked questions

According to the Bohr’s atomic model? Give a reason for each statement. (i) Electrons lose energy while moving in fixed orbits and slowly fall into the nucleus. (ii) Electrons can exist anywhere around the nucleus with no fixed energy. (iii) Electrons revolve around the nucleus in orbits of fixed energy without losing energy. (iv) Electrons can be found between energy levels as they move around the nucleus.

According to Bohr's atomic model:

(i) Electrons do NOT lose energy while moving in fixed orbits and hence do not fall into the nucleus. This is because electrons revolve in fixed energy levels or orbits where they do not emit energy.

(ii) Electrons cannot exist anywhere around the nucleus with no fixed energy. Bohr's model states that electrons can only exist in certain fixed orbits with definite energies.

(iii) Electrons revolve around the nucleus in orbits of fixed energy without losing ene

The composition of the nuclei of three atomic species X, Y, and Z are given as follows. | | X | Y | Z | | --- | --- | --- | --- | | Number of protons | 18 | 17 | 17 | | Number of neutrons | 19 | 18 | 20 | Explain the relation between the following: (i) Y and Z (ii) Z and X

(i) Y and Z have the same number of protons (17) but different number of neutrons (18 and 20 respectively). Therefore, Y and Z are isotopes of the same element.

(ii) Z and X have different numbers of protons (17 and 18 respectively) and different numbers of neutrons (20 and 19 respectively). Therefore, Z and X are different elements.

What conclusion did Rutherford draw about the position and characteristics of the atom’s positively charged part based on the few alpha particles that bounced back or were deflected at large angles in the gold foil experiment?

Rutherford concluded that the atom has a small, dense, positively charged nucleus at its center. The fact that a few alpha particles were deflected at large angles or bounced back indicated that the positive charge and most of the mass of the atom are concentrated in a tiny central nucleus, while the rest of the atom is mostly empty space.

Explain and arrange the following statements in the correct chronological order to show how atomic models have evolved over time. (i) Bohr's model proposed that electrons move in fixed orbits around the nucleus, each with a definite energy. (ii) Thomson's model depicted the atom as a 'plum pudding' with electrons embedded in a sphere of positive charge. (iii) Rutherford's model proposed that atoms have a dense central nucleus. (iv) Dalton's model described atoms as indivisible particles.

Correct chronological order:

(iv) Dalton's model described atoms as indivisible particles. (ii) Thomson's model depicted the atom as a 'plum pudding' with electrons embedded in a sphere of positive charge. (iii) Rutherford's model proposed that atoms have a dense central nucleus. (i) Bohr's model proposed that electrons move in fixed orbits around the nucleus, each with a definite energy.

Explanation: Dalton's model was the earliest, describing atoms as indivisible. Thomson discovered electron

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