Abstract image of a woman sitting on books and studying on a laptop

Class 11 . ATOMIC STRUCTURE.pptx

Download as PPTX, PDF
U
UJJWALJHA67

1. The document discusses the historical development of atomic structure theories from Dalton's atomic theory to Bohr's atomic model. 2. Dalton's atomic theory proposed that all matter is composed of indivisible atoms that combine in fixed ratios, but it did not account for subatomic particles. 3. Rutherford's gold foil experiment led to the discovery of the nucleus and nuclear model of the atom, with electrons in orbits around the nucleus, though this model could not explain the stability of atoms.

Education
1 of 28
Download to read offline
1
2
Most read
3
Most read
4
5
6
7
8
9
10
11
12
13
14
15
Most read
16
17
18
19
20
21
22
23
24
25
26
27
28
Atomic Structure (XI)
Introduction/Historical background  Early Hindu (Maharishi Kapila, Maharshi Kanada) and Greek Philosophers (Leucippus, Democritus) were the originators of the concept of atoms.  Greek word atomos (a = absence, tomos = cut) Dalton’s Atomic Theory (1808)  It states that all matters are made up of small, indivisible particles known as ‘atoms’. Postulates: 1. All matter consists of tiny indivisible particles called atoms. 2. All atoms of a specific element are identical in all respects. However, atoms of different elements exhibit different properties and vary in mass and size. 3. Atoms can neither be created nor destroyed. (indestructible, indivisible) 4. Atoms of different elements can combine with each other in fixed whole-number ratios in order to form compounds. 5. Atoms can be rearranged, combined, or separated in chemical reactions. ATOMIC STRUCTURE
Limitations: Dalton’s Atomic Theory 1. It does not account for subatomic particles. 2. It does not account for isotopes and isobars. 3. Elements need not combine in simple whole-number ratios to form compounds. 4. The theory does not account for allotropes. Merits: 1. The law of multiple proportions, the law of conservation of mass, and the law of constant proportions are not violated by Dalton’s atomic theory. 2. The theory provides a basis to differentiate between elements (atoms) and compounds (molecules).
Discovery of the electron  J.J. Thomson Discovery of the proton  E. Goldstein Discovery of neutron  James Chadwick (1932)  Late discovery due to electrically neutral nature
Comparison of some properties of subatomic particles (e, p and n)
Comparison of some properties of subatomic particles (e, p and n)
Atomic models 1. JJ Thomson’s Atomic model 2. Rutherford’s Atomic model 3. Bohr’s Atomic model 4. Bohr-Sommerfeld atomic model (Modification of Bohr’s atomic model) 5. Wave mechanical and quantum mechanical model of the atom: Quantum theory
 Only few properties of atoms can be understand from this model thus, this theory was soon rejected.
Rutherford’s Atomic model (α-ray scattering experiment)  This experiment led to the discovery of nucleus so it is called nuclear model of atom..
α-particles are shot out from radio active elements with very high speed. They are the nucleus of helium atoms. It has a charge of +2 and mass 4 amu.
(α-ray scattering experiment)
Observation
Conclusions
Class 11 . ATOMIC STRUCTURE.pptx
1. Inability to explain the stability of atom: According to this model, electron revolves around the positively charged nucleus in a circular path. As the electron revolves in a circular orbit, it is constantly subjected to centripetal acceleration and radiates energy continuously ( as per Maxwell's EM theory) . As a result due to this continuous loss of energy, the electrons should follow spiral path towards the nucleus and fall into it. Hence atoms must collapse, but they are stable. Limitations Radiation of energy by moving electron should give continuous atomic spectra but this doesn’t happen as atoms give discontinuous line spectra which represent radiation of different frequencies.
Class 11 . ATOMIC STRUCTURE.pptx
Class 11 . ATOMIC STRUCTURE.pptx
Class 11 . ATOMIC STRUCTURE.pptx
Class 11 . ATOMIC STRUCTURE.pptx
Thomson’s atomic model and Rutherford’s atomic model failed to answer any questions related to the energy of an atom and its stability. In the year 1913, Niels Bohr proposed an atomic structure model, describing an atom as a small, positively charged nucleus surrounded by electrons that travel in circular orbits around the positively charged nucleus as planets around the sun in our solar system, with attraction provided by electrostatic forces, popularly known as Bohr’s atomic model. Bohr theory Applicable to modified Rutherford’s atomic model by explaining that electrons move in fixed orbitals (shells) and not anywhere in between and he also explained that each orbit (shell) has a fixed energy level. Rutherford basically explained the nucleus of an atom and Bohr modified that model into electrons and their energy levels. Bohr’s atomic model
1. Stationary orbit In an atom, electrons (negatively charged) revolve around the positively charged nucleus in a in a fixed circular path or orbits or shells or energy level termed “stationary orbit”. Postulates of Bohr’s atomic model
Only those orbits are possible for which angular momentum of the electron is equal to the integral multiple of h/2π. Mathematically it can be expressed as Where n = integer ( 1 , 2, 3, …… denotes no. of shell or orbit) h = plank’s constant (6.624 × 10-27 erg-seconds) m = mass of electron v= velocity of electron 2. Quantization of angular momentum
3. Quantization of energy. The energy levels are represented by an integer (n=1, 2, 3…) known as the quantum number. This range of quantum number starts from nucleus side with n=1 having the lowest energy level. The orbits n=1, 2, 3, 4… are assigned as K, L, M, N…. shells and when an electron attains the lowest energy level, it is said to be in the ground state. When an electron revolves around the nucleus in a fixed orbit, the electrons neither emit or nor absorbs the radiation, i.e. energy of an electron is quantized.
 An electron emits or absorbs energy when it jumps from one orbit or energy level to another. The energy absorbed or emitted is equal to the difference between the energies of the two energy levels (E1, E2) and is determined by Plank’s equation. ΔE = hv Where, ΔE = E2-E1 ΔE = energy absorbed or emitted h= Plank’s constant v= frequency of electromagnetic radiation emitted or absorbed
4.Origin of atomic spectra. (b) The electrons in an atom move from a lower energy level to a higher energy level by gaining the required energy and an electron moves from a higher energy level to lower energy level by losing energy. The released energy corresponds to the radiation of different wavelength.
Applications of Bohr’s Model of an Atom • To explain the stability of atom. • To explain the line spectra of hydrogen. • To calculate the energy and velocity of electron. • To calculate the radius of atomic orbital.
Limitations of Bohr’s Model of an Atom • Bohr’s theory is applicable only to hydrogen-like species containing one electron only e.g. Li2+. Bohr’s theory is applicable to hydrogen like atoms (single electron system). Li2+ and H-atom consists of only one electron. He, He2+ consist of 2, 0 electrons respectively • Bohr’s model of an atom failed to explain the Zeeman Effect (effect of magnetic field on the spectra of atoms). • It also failed to explain the Stark effect (effect of electric field on the spectra of atoms). • It violates the Heisenberg Uncertainty Principle. • It could not explain the spectra obtained from larger atoms.
Hydrogen spectra

More Related Content

PPTX
Structure of atom
Dr. Tanuja Nautiyal
 
PPTX
Structure of atoms
Muquaddisa Sabreen
 
PPTX
STRUCTURE_OF_ATOM 1123.pptx
niralipatil
 
PPT
Orbital shape-orientationt
1971995
 
PDF
Structure of atom plus one focus area notes
saranyaHC1
 
PPT
discovery of proton
ABTEJAN
 
PPTX
PPT ATOMS AND MOLECULE
lili638251
 
PDF
CLASS 11 Chemistry PPT CH-2 Structure Of Atom.pdf
tanvibhati2
 
Structure of atom
Dr. Tanuja Nautiyal
 
Structure of atoms
Muquaddisa Sabreen
 
STRUCTURE_OF_ATOM 1123.pptx
niralipatil
 
Orbital shape-orientationt
1971995
 
Structure of atom plus one focus area notes
saranyaHC1
 
discovery of proton
ABTEJAN
 
PPT ATOMS AND MOLECULE
lili638251
 
CLASS 11 Chemistry PPT CH-2 Structure Of Atom.pdf
tanvibhati2
 

What's hot (20)

PPTX
Rutherford’s atomic model
Pawan Harimkar
 
PPT
Avi
Darshan Panchal
 
PPTX
Chapter 2 structure of atom class 11
ritik
 
PPT
Trends in the periodic table
chan_sicat14
 
PPTX
Chemical bonding and molecular structure grade 11
ritik
 
PPTX
Ppt of 12 physics chapter 1
snigdhajain22
 
PDF
Some Basic concepts of chemistry
KalpaDihingia
 
PPTX
CBSE Class 11 Chemistry Chapter 2 (The Structure of Atom)
Homi Institute
 
PDF
Periodic Classification of Elements
Pawan Kumar Sahu
 
PPT
Chemical bonding
gabriela de la garza
 
PPTX
RUTHERFORD ‘ S MODEL OF AN ATOM
deepak190
 
PPT
Electronic configuration
Hoshi94
 
PPT
Class 12th Physics Atom nuclei PPt
Arpit Meena
 
PPT
Lecture 7.3- Metallic Bonds
Mary Beth Smith
 
PPT
Bohr Theory
Gargi Education
 
PPTX
Ionic bonding
DRSURYAKANTBORUL
 
PPTX
Ch 12 (atoms)
Abhijeet Kumar
 
PPTX
Struture of an atom
Niharika Pande
 
PPT
Chapter 8 redox reactions ppt for class 11 CBSE
ritik
 
PPT
Chemistry - Chp 5 - Electrons In Atoms - Powerpoint
Mel Anthony Pepito
 
Rutherford’s atomic model
Pawan Harimkar
 
Avi
Darshan Panchal
 
Chapter 2 structure of atom class 11
ritik
 
Trends in the periodic table
chan_sicat14
 
Chemical bonding and molecular structure grade 11
ritik
 
Ppt of 12 physics chapter 1
snigdhajain22
 
Some Basic concepts of chemistry
KalpaDihingia
 
CBSE Class 11 Chemistry Chapter 2 (The Structure of Atom)
Homi Institute
 
Periodic Classification of Elements
Pawan Kumar Sahu
 
Chemical bonding
gabriela de la garza
 
RUTHERFORD ‘ S MODEL OF AN ATOM
deepak190
 
Electronic configuration
Hoshi94
 
Class 12th Physics Atom nuclei PPt
Arpit Meena
 
Lecture 7.3- Metallic Bonds
Mary Beth Smith
 
Bohr Theory
Gargi Education
 
Ionic bonding
DRSURYAKANTBORUL
 
Ch 12 (atoms)
Abhijeet Kumar
 
Struture of an atom
Niharika Pande
 
Chapter 8 redox reactions ppt for class 11 CBSE
ritik
 
Chemistry - Chp 5 - Electrons In Atoms - Powerpoint
Mel Anthony Pepito
 
Ad

Similar to Class 11 . ATOMIC STRUCTURE.pptx (20)

PPTX
Atomic structure & chemical bond
Sabbir Ahmed
 
PDF
Chem chapter 2 Atomic Structure.pptx.pdf
ezyibrahima
 
PPTX
Chemistry 11
rakeshbhanj
 
PPTX
brief description of Structure of Atom .pptx
Manarat International University
 
PPTX
Evolution of atomic theories, Dalton.JJ. Thamson, Rutherford, max plank, Bohr
ManjulaVani3
 
PPTX
G9 Science Q2- Week 1- Quantum (1).pptx
roselindolos
 
PPT
Electrons in atoms
Pep Jordi
 
PPTX
Atomic structure
RenjushaS
 
PDF
Chapter 1_Atomic Structure_PDF_GENERAL CHEMISTRY
MinhQuan85
 
PPTX
Atomic and molecularggggggggggggggggggggggggggggggggggggggggggggggggggggggggg...
sindhuwork123
 
PPTX
Structure of atom ppt_ClassXI_CBSE_NCERT
PratibhaNarang6
 
PPTX
History of atomic model.pptx
AadarshSah1
 
PPT
Ch 5 electrons in atoms notes
Esther Herrera
 
PPT
The_Atom class 9 Neutron Proton and Electrons
KamalKrishna32
 
PPT
The_Atom.ppt science 8 quarter 3 module 5
JENYVEVGAYOMA
 
PPT
The_Atom.ppt
CatherinePaschal2
 
DOC
chemistry 2nd sec full sheet
Ibrahem Mohamed
 
PPTX
Structure of atom
sarunkumar31
 
PPT
Bohr’s model for hydrogen atom
Pusan National University
 
PDF
bohrsmodelforhydrogenatom-141216074739-conversion-gate02.pdf
SachinSachinKumar4
 
Atomic structure & chemical bond
Sabbir Ahmed
 
Chem chapter 2 Atomic Structure.pptx.pdf
ezyibrahima
 
Chemistry 11
rakeshbhanj
 
brief description of Structure of Atom .pptx
Manarat International University
 
Evolution of atomic theories, Dalton.JJ. Thamson, Rutherford, max plank, Bohr
ManjulaVani3
 
G9 Science Q2- Week 1- Quantum (1).pptx
roselindolos
 
Electrons in atoms
Pep Jordi
 
Atomic structure
RenjushaS
 
Chapter 1_Atomic Structure_PDF_GENERAL CHEMISTRY
MinhQuan85
 
Atomic and molecularggggggggggggggggggggggggggggggggggggggggggggggggggggggggg...
sindhuwork123
 
Structure of atom ppt_ClassXI_CBSE_NCERT
PratibhaNarang6
 
History of atomic model.pptx
AadarshSah1
 
Ch 5 electrons in atoms notes
Esther Herrera
 
The_Atom class 9 Neutron Proton and Electrons
KamalKrishna32
 
The_Atom.ppt science 8 quarter 3 module 5
JENYVEVGAYOMA
 
The_Atom.ppt
CatherinePaschal2
 
chemistry 2nd sec full sheet
Ibrahem Mohamed
 
Structure of atom
sarunkumar31
 
Bohr’s model for hydrogen atom
Pusan National University
 
bohrsmodelforhydrogenatom-141216074739-conversion-gate02.pdf
SachinSachinKumar4
 
Ad

Recently uploaded (20)

PDF
1.3 FINAL REVISED K-10 PE and Health CG 2023 Grades 4-10 (1).pdf
JohnJerryDalawampu
 
PDF
BP 704 T. NOVEL DRUG DELIVERY SYSTEMS (UNIT 2).pdf
CMEmpire
 
PPTX
Share_Module_2_Power_conflict_and_negotiation.pptx
Lavanyaj33
 
PPTX
What’s under the hood: Parsing standardized learning content for AI
Rustici Software
 
PDF
MBA _Common_ 2nd year Syllabus _2021-22_.pdf
DrAnubha4
 
PDF
LIFE & LIVING TRILOGY - PART - (2) THE PURPOSE OF LIFE.pdf
sureshkumarsoni26
 
PDF
LEARNERS WITH ADDITIONAL NEEDS ProfEd Topic
Johnlloyd489543
 
PDF
Empowerment Technology for Senior High School Guide
solthereseamericandr
 
PPTX
Core Concepts of Personalized Learning and Virtual Learning Environments
Dr. Bushra Sumaiya
 
DOCX
Cambridge-Practice-Tests-for-IELTS-12.docx
ssuser0d93ff
 
PPTX
Climate Change and Its Global Impact.pptx
vaishalidobhal148
 
PDF
Vision Prelims GS PYQ Analysis 2011-2022 www.upscpdf.com.pdf
navneetgupta711851
 
PDF
FORM 1 BIOLOGY MIND MAPS and their schemes
arcade5
 
PDF
David L Page_DCI Research Study Journey_how Methodology can inform one's prac...
David L Page
 
PPTX
Education and Perspectives of Education.pptx
Central University of South Bihar, Gaya, Bihar
 
PDF
Environmental Education MCQ BD2EE - Share Source.pdf
Dr Raja Mohammed T
 
PDF
Literature_Review_methods_ BRACU_MKT426 course material
mokoto4834
 
PDF
Myanmar Dental Journal, The Journal of the Myanmar Dental Association (2013).pdf
Nay Aung
 
PPTX
A powerpoint presentation on the Revised K-10 Science Shaping Paper
JericEstaco2
 
PDF
Complications of Minimal Access-Surgery.pdf
Laparoscopy Hospital
 
1.3 FINAL REVISED K-10 PE and Health CG 2023 Grades 4-10 (1).pdf
JohnJerryDalawampu
 
BP 704 T. NOVEL DRUG DELIVERY SYSTEMS (UNIT 2).pdf
CMEmpire
 
Share_Module_2_Power_conflict_and_negotiation.pptx
Lavanyaj33
 
What’s under the hood: Parsing standardized learning content for AI
Rustici Software
 
MBA _Common_ 2nd year Syllabus _2021-22_.pdf
DrAnubha4
 
LIFE & LIVING TRILOGY - PART - (2) THE PURPOSE OF LIFE.pdf
sureshkumarsoni26
 
LEARNERS WITH ADDITIONAL NEEDS ProfEd Topic
Johnlloyd489543
 
Empowerment Technology for Senior High School Guide
solthereseamericandr
 
Core Concepts of Personalized Learning and Virtual Learning Environments
Dr. Bushra Sumaiya
 
Cambridge-Practice-Tests-for-IELTS-12.docx
ssuser0d93ff
 
Climate Change and Its Global Impact.pptx
vaishalidobhal148
 
Vision Prelims GS PYQ Analysis 2011-2022 www.upscpdf.com.pdf
navneetgupta711851
 
FORM 1 BIOLOGY MIND MAPS and their schemes
arcade5
 
David L Page_DCI Research Study Journey_how Methodology can inform one's prac...
David L Page
 
Education and Perspectives of Education.pptx
Central University of South Bihar, Gaya, Bihar
 
Environmental Education MCQ BD2EE - Share Source.pdf
Dr Raja Mohammed T
 
Literature_Review_methods_ BRACU_MKT426 course material
mokoto4834
 
Myanmar Dental Journal, The Journal of the Myanmar Dental Association (2013).pdf
Nay Aung
 
A powerpoint presentation on the Revised K-10 Science Shaping Paper
JericEstaco2
 
Complications of Minimal Access-Surgery.pdf
Laparoscopy Hospital
 

Class 11 . ATOMIC STRUCTURE.pptx

  • 2. Introduction/Historical background  Early Hindu (Maharishi Kapila, Maharshi Kanada) and Greek Philosophers (Leucippus, Democritus) were the originators of the concept of atoms.  Greek word atomos (a = absence, tomos = cut) Dalton’s Atomic Theory (1808)  It states that all matters are made up of small, indivisible particles known as ‘atoms’. Postulates: 1. All matter consists of tiny indivisible particles called atoms. 2. All atoms of a specific element are identical in all respects. However, atoms of different elements exhibit different properties and vary in mass and size. 3. Atoms can neither be created nor destroyed. (indestructible, indivisible) 4. Atoms of different elements can combine with each other in fixed whole-number ratios in order to form compounds. 5. Atoms can be rearranged, combined, or separated in chemical reactions. ATOMIC STRUCTURE
  • 3. Limitations: Dalton’s Atomic Theory 1. It does not account for subatomic particles. 2. It does not account for isotopes and isobars. 3. Elements need not combine in simple whole-number ratios to form compounds. 4. The theory does not account for allotropes. Merits: 1. The law of multiple proportions, the law of conservation of mass, and the law of constant proportions are not violated by Dalton’s atomic theory. 2. The theory provides a basis to differentiate between elements (atoms) and compounds (molecules).
  • 4. Discovery of the electron  J.J. Thomson Discovery of the proton  E. Goldstein Discovery of neutron  James Chadwick (1932)  Late discovery due to electrically neutral nature
  • 5. Comparison of some properties of subatomic particles (e, p and n)
  • 6. Comparison of some properties of subatomic particles (e, p and n)
  • 7. Atomic models 1. JJ Thomson’s Atomic model 2. Rutherford’s Atomic model 3. Bohr’s Atomic model 4. Bohr-Sommerfeld atomic model (Modification of Bohr’s atomic model) 5. Wave mechanical and quantum mechanical model of the atom: Quantum theory
  • 8.  Only few properties of atoms can be understand from this model thus, this theory was soon rejected.
  • 9. Rutherford’s Atomic model (α-ray scattering experiment)  This experiment led to the discovery of nucleus so it is called nuclear model of atom..
  • 10. α-particles are shot out from radio active elements with very high speed. They are the nucleus of helium atoms. It has a charge of +2 and mass 4 amu.
  • 15. 1. Inability to explain the stability of atom: According to this model, electron revolves around the positively charged nucleus in a circular path. As the electron revolves in a circular orbit, it is constantly subjected to centripetal acceleration and radiates energy continuously ( as per Maxwell's EM theory) . As a result due to this continuous loss of energy, the electrons should follow spiral path towards the nucleus and fall into it. Hence atoms must collapse, but they are stable. Limitations Radiation of energy by moving electron should give continuous atomic spectra but this doesn’t happen as atoms give discontinuous line spectra which represent radiation of different frequencies.
  • 20. Thomson’s atomic model and Rutherford’s atomic model failed to answer any questions related to the energy of an atom and its stability. In the year 1913, Niels Bohr proposed an atomic structure model, describing an atom as a small, positively charged nucleus surrounded by electrons that travel in circular orbits around the positively charged nucleus as planets around the sun in our solar system, with attraction provided by electrostatic forces, popularly known as Bohr’s atomic model. Bohr theory Applicable to modified Rutherford’s atomic model by explaining that electrons move in fixed orbitals (shells) and not anywhere in between and he also explained that each orbit (shell) has a fixed energy level. Rutherford basically explained the nucleus of an atom and Bohr modified that model into electrons and their energy levels. Bohr’s atomic model
  • 21. 1. Stationary orbit In an atom, electrons (negatively charged) revolve around the positively charged nucleus in a in a fixed circular path or orbits or shells or energy level termed “stationary orbit”. Postulates of Bohr’s atomic model
  • 22. Only those orbits are possible for which angular momentum of the electron is equal to the integral multiple of h/2π. Mathematically it can be expressed as Where n = integer ( 1 , 2, 3, …… denotes no. of shell or orbit) h = plank’s constant (6.624 × 10-27 erg-seconds) m = mass of electron v= velocity of electron 2. Quantization of angular momentum
  • 23. 3. Quantization of energy. The energy levels are represented by an integer (n=1, 2, 3…) known as the quantum number. This range of quantum number starts from nucleus side with n=1 having the lowest energy level. The orbits n=1, 2, 3, 4… are assigned as K, L, M, N…. shells and when an electron attains the lowest energy level, it is said to be in the ground state. When an electron revolves around the nucleus in a fixed orbit, the electrons neither emit or nor absorbs the radiation, i.e. energy of an electron is quantized.
  • 24.  An electron emits or absorbs energy when it jumps from one orbit or energy level to another. The energy absorbed or emitted is equal to the difference between the energies of the two energy levels (E1, E2) and is determined by Plank’s equation. ΔE = hv Where, ΔE = E2-E1 ΔE = energy absorbed or emitted h= Plank’s constant v= frequency of electromagnetic radiation emitted or absorbed
  • 25. 4.Origin of atomic spectra. (b) The electrons in an atom move from a lower energy level to a higher energy level by gaining the required energy and an electron moves from a higher energy level to lower energy level by losing energy. The released energy corresponds to the radiation of different wavelength.
  • 26. Applications of Bohr’s Model of an Atom • To explain the stability of atom. • To explain the line spectra of hydrogen. • To calculate the energy and velocity of electron. • To calculate the radius of atomic orbital.
  • 27. Limitations of Bohr’s Model of an Atom • Bohr’s theory is applicable only to hydrogen-like species containing one electron only e.g. Li2+. Bohr’s theory is applicable to hydrogen like atoms (single electron system). Li2+ and H-atom consists of only one electron. He, He2+ consist of 2, 0 electrons respectively • Bohr’s model of an atom failed to explain the Zeeman Effect (effect of magnetic field on the spectra of atoms). • It also failed to explain the Stark effect (effect of electric field on the spectra of atoms). • It violates the Heisenberg Uncertainty Principle. • It could not explain the spectra obtained from larger atoms.