Access free live classes and tests on the app
Download
+
Unacademy's Blog!
Login Join for Free
avtar
  • ProfileProfile
  • Settings Settings
  • Refer your friendsRefer your friends
  • Sign outSign out
  • Terms & conditions
  • •
  • Privacy policy
  • About
  • •
  • Careers
  • •
  • Blog

© 2023 Sorting Hat Technologies Pvt Ltd

Challenge Yourself Everyday Attempt 2023’s and previous year’s JEE Main Download Important Formulas pdf Attempt Free Test Series for JEE Main 2023

Trending Topics

  • JEE Main 2024
  • JEE Main Rank Predictor 2024
  • JEE Main Mock Test 2024
  • JEE Main 2024 Admit Card
  • JEE Advanced Syllabus
  • JEE Preparation Books
  • JEE Notes
  • JEE Advanced Toppers
  • JEE Advanced 2022 Question Paper
  • JEE Advanced 2022 Answer Key
  • JEE Main Question Paper
  • JEE Main Answer key 2022
  • JEE Main Paper Analysis 2022
  • JEE Main Result
  • JEE Exam Pattern
  • JEE Main Eligibility
  • JEE College predictor
[wp_login_wall media_id="424566" text_before_login="Download JEE Main PYQs" text_after_login="Download JEE Main 2022 Question Papers"]

JEE Coaching Centres

  • JEE Coaching in Nagpur
  • JEE Coaching in Ranchi
  • JEE Coaching in Gorakhpur
  • JEE Coaching in Bhubaneswar
  • JEE Coaching in Vijayawada
  • JEE Coaching in Dehradun
  • JEE Coaching in Indore
  • JEE Coaching in Gurugram
  • JEE Coaching in Muzaffarpur
  • JEE Coaching in Varanasi
  • JEE Coaching in Jammu
  • JEE Coaching in Kolhapur
  • JEE Coaching in Bikaner
  • JEE Coaching in Delhi Lajpat Nagar
Predict your JEE Rank . [wp_custom_style style=".side-btn-second{margin: 1px 0px;}"][wp_custom_script script="document.querySelector('.targetTopBtn').onClick = topFunction; function topFunction() { window.scrollTo({ top: 0, behavior: 'smooth' }) }"][wp_custom_style style=".side-btn-second{margin: 1px 0px;} .elementor-element.elementor-element-dcb2b31{display: none !important;}"]
Challenge Yourself Everyday Attempt 2023’s and previous year’s JEE Main Download Important Formulas pdf Attempt Free Test Series for JEE Main 2023

Trending Topics

  • JEE Main 2024
  • JEE Main Rank Predictor 2024
  • JEE Main Mock Test 2024
  • JEE Main 2024 Admit Card
  • JEE Advanced Syllabus
  • JEE Preparation Books
  • JEE Notes
  • JEE Advanced Toppers
  • JEE Advanced 2022 Question Paper
  • JEE Advanced 2022 Answer Key
  • JEE Main Question Paper
  • JEE Main Answer key 2022
  • JEE Main Paper Analysis 2022
  • JEE Main Result
  • JEE Exam Pattern
  • JEE Main Eligibility
  • JEE College predictor
[wp_login_wall media_id="424566" text_before_login="Download JEE Main PYQs" text_after_login="Download JEE Main 2022 Question Papers"]

JEE Coaching Centres

  • JEE Coaching in Nagpur
  • JEE Coaching in Ranchi
  • JEE Coaching in Gorakhpur
  • JEE Coaching in Bhubaneswar
  • JEE Coaching in Vijayawada
  • JEE Coaching in Dehradun
  • JEE Coaching in Indore
  • JEE Coaching in Gurugram
  • JEE Coaching in Muzaffarpur
  • JEE Coaching in Varanasi
  • JEE Coaching in Jammu
  • JEE Coaching in Kolhapur
  • JEE Coaching in Bikaner
  • JEE Coaching in Delhi Lajpat Nagar
Predict your JEE Rank . [wp_custom_style style=".side-btn-second{margin: 1px 0px;}"][wp_custom_script script="document.querySelector('.targetTopBtn').onClick = topFunction; function topFunction() { window.scrollTo({ top: 0, behavior: 'smooth' }) }"][wp_custom_style style=".side-btn-second{margin: 1px 0px;} .elementor-element.elementor-element-dcb2b31{display: none !important;}"]
JEE Main 2026 Preparation: Question Papers, Solutions, Mock Tests & Strategy Unacademy » JEE Study Material » Chemistry » Bohr’s Model for Hydrogen
Challenge Yourself Everyday Attempt 2023’s and previous year’s JEE Main Download Important Formulas pdf Attempt Free Test Series for JEE Main 2023

Trending Topics

  • JEE Main 2024
  • JEE Main Rank Predictor 2024
  • JEE Main Mock Test 2024
  • JEE Main 2024 Admit Card
  • JEE Advanced Syllabus
  • JEE Preparation Books
  • JEE Notes
  • JEE Advanced Toppers
  • JEE Advanced 2022 Question Paper
  • JEE Advanced 2022 Answer Key
  • JEE Main Question Paper
  • JEE Main Answer key 2022
  • JEE Main Paper Analysis 2022
  • JEE Main Result
  • JEE Exam Pattern
  • JEE Main Eligibility
  • JEE College predictor
[wp_login_wall media_id="424566" text_before_login="Download JEE Main PYQs" text_after_login="Download JEE Main 2022 Question Papers"]

JEE Coaching Centres

  • JEE Coaching in Nagpur
  • JEE Coaching in Ranchi
  • JEE Coaching in Gorakhpur
  • JEE Coaching in Bhubaneswar
  • JEE Coaching in Vijayawada
  • JEE Coaching in Dehradun
  • JEE Coaching in Indore
  • JEE Coaching in Gurugram
  • JEE Coaching in Muzaffarpur
  • JEE Coaching in Varanasi
  • JEE Coaching in Jammu
  • JEE Coaching in Kolhapur
  • JEE Coaching in Bikaner
  • JEE Coaching in Delhi Lajpat Nagar
Predict your JEE Rank . [wp_custom_style style=".side-btn-second{margin: 1px 0px;}"][wp_custom_script script="document.querySelector('.targetTopBtn').onClick = topFunction; function topFunction() { window.scrollTo({ top: 0, behavior: 'smooth' }) }"][wp_custom_style style=".side-btn-second{margin: 1px 0px;} .elementor-element.elementor-element-dcb2b31{display: none !important;}"]

Bohr’s Model for Hydrogen

This article contains study material notes on Bohr’s model for hydrogen. We will also discuss the limitations of Bohr’s model for hydrogen.

Table of Content
  •  

In 1913, Niels Bohr proposed the atomic Hydrogen hypothesis. It is  a positively charged nucleus made up of protons and neutrons that is surrounded by a negatively charged electron cloud, according to him. In the model, electrons are arranged in atomic shells around the nucleus. Electrostatic interactions between the positive nucleus and the negative surrounds hold the atom together.

Hydrogen Energy Levels

The structure of hydrogen energy levels is described using the Bohr’s model.  The maximum energy is the ionisation energy of 13.598eV, and the quantity of energy in each level is reported in eV.

Hydrogen Spectrum

  • A spectrum is produced by electrons moving between these different energy levels. The Balmer equation is used to describe the four different Hydrogen wavelengths that exist in the visible light spectrum. The wavelengths are 656, 484, 434, and 410 nm, respectively. 
  • As an electron in an excited state goes down to the energy level n=2, photons are emitted. For all energy level transitions, the Rydberg formula (below) generalises the Balmer series. The Rydberg formula with a nf of 2 is used to generate the Balmer lines.
  • The Rydberg formula describes the various transition energies that occur between energy levels.
  •  A photon is emitted when an electron goes from a higher to a lower energy level. Depending on the initial and final energy levels of the transition, the hydrogen atom can emit different wavelengths of light. It emits a photon with an energy equal to the square of the energy levels of the final (nf) and initial (ni).

Bohr’s Radius

 If ‘e,”m,’ and ‘v’ are the charge, mass, and velocity of the electron, respectively, ‘r’ is the radius of the orbit, and Z is the atomic number, the equation for the radii of the permitted orbits ,

r = n2 xr1

 Where,  ‘n’ is the principal quantum number, and r1 is the least allowed radius for a hydrogen atom, known as Bohr’s radius having a value of 0.53 Å.

  • The nonclassical assumption that electrons travel in specified circular orbits around the nucleus underpins Bohr’s hydrogen model. An integer, the quantum number n, is used to designate the orbits. By emitting or absorbing energy, electrons can jump from one orbit to the next.
  • The following energies for an electron in the shell were computed using Bohr’s model:
ev1
  • The hydrogen spectrum was explained by Bohr in terms of electrons absorbing and emitting photons to alter energy levels, where the photon energy is measured in eV, are as
ev2

Note

  • For systems with more than one electron, Bohr’s model fails.

Bohr Model for heavier atoms

  • The nucleus of heavier atoms has more protons than the nucleus of hydrogen atoms. To cancel out the positive charge of all of these protons, more electrons were needed. Each electron orbit, according to Bohr, could only hold a certain amount of electrons. Once the level was filled, additional electrons would be bumped up to the next level. 
  • For heavier atoms, the Bohr model explained electron shells. The model explained some of the atomic properties of heavier atoms, which had never been reproduced before.
  • The shell hypothesis, for example, explained why, although having more protons and electrons, atoms become smaller as they move across a period (row) of the periodic table.

Refinements and Improvements to the Bohr Model

  • The Sommerfeld model, sometimes known as the Bohr-Sommerfeld model, was the most notable improvement to the Bohr model. In this model, electrons orbit the nucleus in elliptical orbits rather than circular orbits. The Sommerfeld model does a better job of explaining atomic spectral effects including spectral line splitting’s Stark effect. The magnetic quantum number, on the other hand, was not accommodated by the model.

Limitations of Bohr’s Model

  • The Bohr Model was a significant step forward towards atomic theory development. It does, however, have some drawbacks.
  • It goes against Heisenberg’s Uncertainty Principle. The Bohr Model assumes that electrons have a defined radius and orbit, which Heisenberg says is impossible.
  • The size of the Bohr Model is extremely constrained. When dealing with larger atoms, poor spectral predictions are produced.
  • It is unable to estimate spectral line relative intensities.
  • It doesn’t account for the Zeeman Effect, which occurs when a spectral line splits into many components in the presence of a magnetic field.
  • The fact that accelerating electrons do not emit electromagnetic radiation is disregarded by the Bohr’s Model.

Conclusion

In 1913, Niels Bohr proposed the atomic Hydrogen hypothesis. It’s a positively charged nucleus made up of protons and neutrons that’s surrounded by a negatively charged electron cloud, according to him. In the model, electrons are arranged in atomic shells around the nucleus. Electrostatic interactions between the positive nucleus and the negative surrounds hold the atom together. The structure of hydrogen energy levels is described using the Bohr model. Each shell corresponds to the energy levels shown. The maximum energy is the ionisation energy of 13.598eV, and the quantity of energy in each level is reported in eV.

faq

Frequently Asked Questions

Get answers to the most common queries related to the JEE Examination Preparation.

Why does Bohr's model hold true in the case of hydrogen?

Ans. Because hydrogen and hydrogen-like atoms only have one electron, electron correlation effects do not exist. H, ...Read full

What are the limitations of Bohrs' hydrogen-atom theory?

Ans. Limitations of Bohr’s Hydrogen Atom Theory: ...Read full

What is Bohrs theory, and how does it work?

Ans. Bohr’s  theory is a theory in early quantum physics that states: An atom is made up of a positively charged ...Read full

When an electron in a hydrogen atom transitions from the excited to the ground state, what happens?

Ans. The electron in an atom moves from a high energy state to a low energy level when it transitions from the excit...Read full

Why can only certain wavelengths of light be produced by hydrogen atoms?

Ans. Because hydrogen atoms can only produce or absorb radiation at a limited number of frequencies, they can only a...Read full

Ans. Because hydrogen and hydrogen-like atoms only have one electron, electron correlation effects do not exist. H, He+, Li2+, Be3+, and other hydrogen-like atoms are examples.

Ans. Limitations of Bohr’s Hydrogen Atom Theory:

  • Only the simplest atoms, such as hydrogen, with z = 1, are suitable to this theory. In the case of atoms of other elements with z>1, the theory fails. 
  • The theory does not explain why electron orbits are assumed to be circular, despite the fact that elliptical orbits are equally feasible.

Ans. Bohr’s  theory is a theory in early quantum physics that states: An atom is made up of a positively charged nucleus that revolves around one or more quantized energy electrons.

Ans. The electron in an atom moves from a high energy state to a low energy level when it transitions from the excited state to the ground state. The excess energy is emitted as light energy when this happens. This explains why when atoms transition from an excited to a ground state, they emit light.

Ans. Because hydrogen atoms can only produce or absorb radiation at a limited number of frequencies, they can only absorb radiation with a limited range of energies. This indicates that the hydrogen atom contains a finite number of energy levels.

Challenge Yourself Everyday
Attempt 2023’s and previous year’s JEE Main
Download Important Formulas pdf
Attempt Free Test Series for JEE Main 2023

Trending Topics

  • JEE Main 2024
  • JEE Main Rank Predictor 2024
  • JEE Main Mock Test 2024
  • JEE Main 2024 Admit Card
  • JEE Advanced Syllabus
  • JEE Preparation Books
  • JEE Notes
  • JEE Advanced Toppers
  • JEE Advanced 2022 Question Paper
  • JEE Advanced 2022 Answer Key
  • JEE Main Question Paper
  • JEE Main Answer key 2022
  • JEE Main Paper Analysis 2022
  • JEE Main Result
  • JEE Exam Pattern
  • JEE Main Eligibility
  • JEE College predictor

JEE Coaching Centres

  • JEE Coaching in Nagpur
  • JEE Coaching in Ranchi
  • JEE Coaching in Gorakhpur
  • JEE Coaching in Bhubaneswar
  • JEE Coaching in Vijayawada
  • JEE Coaching in Dehradun
  • JEE Coaching in Indore
  • JEE Coaching in Gurugram
  • JEE Coaching in Muzaffarpur
  • JEE Coaching in Varanasi
  • JEE Coaching in Jammu
  • JEE Coaching in Kolhapur
  • JEE Coaching in Bikaner
  • JEE Coaching in Delhi Lajpat Nagar
Predict your JEE Rank
.
Challenge Yourself Everyday
Attempt 2023’s and previous year’s JEE Main
Download Important Formulas pdf
Attempt Free Test Series for JEE Main 2023

Trending Topics

  • JEE Main 2024
  • JEE Main Rank Predictor 2024
  • JEE Main Mock Test 2024
  • JEE Main 2024 Admit Card
  • JEE Advanced Syllabus
  • JEE Preparation Books
  • JEE Notes
  • JEE Advanced Toppers
  • JEE Advanced 2022 Question Paper
  • JEE Advanced 2022 Answer Key
  • JEE Main Question Paper
  • JEE Main Answer key 2022
  • JEE Main Paper Analysis 2022
  • JEE Main Result
  • JEE Exam Pattern
  • JEE Main Eligibility
  • JEE College predictor

JEE Coaching Centres

  • JEE Coaching in Nagpur
  • JEE Coaching in Ranchi
  • JEE Coaching in Gorakhpur
  • JEE Coaching in Bhubaneswar
  • JEE Coaching in Vijayawada
  • JEE Coaching in Dehradun
  • JEE Coaching in Indore
  • JEE Coaching in Gurugram
  • JEE Coaching in Muzaffarpur
  • JEE Coaching in Varanasi
  • JEE Coaching in Jammu
  • JEE Coaching in Kolhapur
  • JEE Coaching in Bikaner
  • JEE Coaching in Delhi Lajpat Nagar
Predict your JEE Rank
.
Company Logo

Unacademy is India’s largest online learning platform. Download our apps to start learning


Starting your preparation?

Call us and we will answer all your questions about learning on Unacademy

Call +91 8585858585

Company
About usShikshodayaCareers
we're hiring
BlogsPrivacy PolicyTerms and Conditions
Help & support
User GuidelinesSite MapRefund PolicyTakedown PolicyGrievance Redressal
Products
Learner appLearner appEducator appEducator appParent appParent app
Popular goals
IIT JEEUPSCSSCCSIR UGC NETNEET UG
Trending exams
GATECATCANTA UGC NETBank Exams
Study material
UPSC Study MaterialNEET UG Study MaterialCA Foundation Study MaterialJEE Study MaterialSSC Study Material

© 2026 Sorting Hat Technologies Pvt Ltd

Unacademy's Blog!

Share via

COPY