Bohr Model Of Atom.

Slides:

Advertisements

Similar presentations

What do you see? Old woman? Or young girl?  Is turning a light on and off a chemical or physical change? ◦ Physical change  What creates light?

Advertisements

Objectives To understand how the emission spectrum of hydrogen demonstrates the quantized nature of energy To learn about Bohr’s model of the hydrogen.

Anyone who is not shocked by quantum mechanics has not understood it. —Neils Bohr (1885–1962)

Light and Electronic Transitions. The Big Questions What is light? How is light emitted? What do electrons have to do with light? What are emission spectra?

Properties of Light Is Light a Wave or a Particle?

Electrons And Light. Electromagnetic Radiation Energy that travels as a wave through space Wavelength –λ – distance between corresponding points on adjacent.

Electrons and Light How does the arrangement of electrons in the atom determine the color of light that it emits?

Lecture 2110/24/05. Light Emission vs. Absorption Black body.

Lecture 2010/19/05. wavelength Amplitude Node Electromagnetic Radiation (Light as waves) Moving Waves.

The Bohr Model: Orbits and Line Spectra. Understand the historical development of the Quantum Mechanical Model of the atom. Describe how a produced line.

Electrons Arrangement in the Atom Key words: Energy, wavelength, frequency, photon Use these terms in a sentence (s) which makes sense.

Electron Energy and Radiation Quantum Mechanics and Electron Movement.

Bohr and Quantum Mechanical Model Mrs. Kay Chem 11A.

The Electromagnetic Spectrum, Planck, and Bohr Honors Coordinated Science II Wheatley-Heckman.

Chem Saver Pg 18 Electrons absorb energy and jump to excited state Electrons release energy as a photon and fall back to ground state.

The Bohr Model of the Atom. The behavior of electrons in atoms is revealed by the light given off when the electrons are “excited” (made to absorb energy).

Electrons Negative charge e- Located in the electron cloud far from the nucleus Have mass, but it is negligible Also have wave-like properties.

Warm-Up Lithium has an atomic weight of g/mol. When g of lithium is heated, it emits an energy measured at 262,500 joules. What is the energy.

Chapter 7 Atomic Structure. Light  Made up of electromagnetic radiation  Waves of electric and magnetic fields at right angles to each other.

Electromagnetic radiation – transmission of energy through space in the form of oscillating waves wavelength, – distance between identical points on successive.

Neils Bohr What keeps the negative electrons from falling toward the positive nucleus?

Emission Spectra and Bohr-Rydberg

Electromagnetic Spectrum Section 1 The Development of a New Atomic Model Chapter 4.

1.6.  A spectroscope separates light into its component wavelengths, revealing a line spectrum that is unique to each element.

Atomic Spectra and Electron Orbitals. The Classical Atom Electrons orbited the nucleus. Electrons orbited the nucleus. Problem!! Problem!! Accelerating.

Section 11.2 The Hydrogen Atom 1.To understand how the emission spectrum of hydrogen demonstrates the quantized nature of energy 2.To learn about Bohr’s.

Wave-Particle Duality JJ Thomson won the Nobel prize for describing the electron as a particle. His son, George Thomson won the Nobel prize for describing.

Chem-To-Go Lesson 7 Unit 2 ENERGY OF ELECTRONS. ENERGY BASICS All energy travels in the form of a wave. Scientists measure the wavelength of a wave to.

Modern Model of the Atom The emission of light is fundamentally related to the behavior of electrons.

Electrons And Light. Electromagnetic Radiation Energy that travels as a wave through space Wavelength –λ – distance between corresponding points on adjacent.

Bohr predicted that the energy of an electron in a hydrogen atom is E = - k ____ n 2 E is the energy of the e - k is the Bohr Constant, x

Electrons in Atoms Chapter 4.

7.4 The Wave Nature of Matter – 7.5 Quantum Mechanics and the Atom

Quantum Theory and the Electronic Structure of Atoms

Light and Electronic Transitions

Early models to Quantum Model

Bohr Model Of Atom.

Arrangement of the Electrons Chapter 4 (reg.)

Aim: How Do We Describe an Atoms Energy Levels?

Valence Electrons, Bohr Diagrams, & Light

Bohr Model of the Atom Objective: Discuss the Bohr model of the atom and calculate the energy of the photon emitted or absorbed by an electron as it.

Bohr Model of the Atom & Light

General Physics (PHY 2140) Lecture 33 Modern Physics Atomic Physics

Bohr Model of the Atom College Chemistry.

5.1 Light & Energy F. Electrons & Light

0:56 0:55 0:54 0:53 0:57 0:58 1:02 1:01 1:00 0:59 0:52 0:51 0:44 0:43 0:42 0:41 0:45 0:46 0:50 0:49 0:48 0:47 1:03 1:04 1:19 1:18 1:17 1:16 1:20 1:21 1:25.

Electrons orbit the nucleus only within allowed energy levels.

Wave-Particle Duality

The Bohr Model (1913) revolve sun energy

HYDROGEN EMISSION SPECTRUM

Dr. S. B Maulage Dept of Chemistry.

Energy and Electrons energy

Electrons can only be at specific energy levels, NOT between levels.

Light and Quantized Energy

Light, Photon Energies, and Atomic Spectra

Orbits and Line Spectra

Warm-Up Use the information below to answer the following questions:

M. Billings North Surry High School

Light and electrons.

Bohr, Emissions, and Spectra

Quantum Theory.

Chemistry “Electrons in Atoms”

Bohr’s Model Nucleus Electron Orbit Energy Levels.

Electrons can only be at specific energy levels, NOT between levels.

Development of Quantum Mechanics Bohr’s Contribution

Bohr’s Model Nucleus Electron Orbit Energy Levels.

Atomic Physics K K Dey Assistant Professor in Physics

Bohr’s Model of Atomic Quantization

Presentation transcript:

Bohr Model Of Atom

Spectrum Continuous spectrum is the rainbow of colors containing all wavelengths Line spectrum contains only certain colors or wavelengths When gases are given energy, they emit line spectra which are characteristic of that gas

Continuous Spectrum Line Spectrum of Hydrogen

Niels Bohr Said electrons occupy the atoms in quantized energy levels Each level (orbit) is assigned an integer (n) called the principal quantum number As n increases, the radius of orbit is greater

Energy Energy of the electron depends on the level it occupies En = - RH ( 1/n2) RH is called the Rydberg constant RH = 2.18x10-18 J

When electrons occupy the lowest possible energy level, they are in ground state When in higher levels, they are in excited state

Hydrogen Line Spectrum H atom absorb a quantum of energy Energized electron “jumps” to a higher level When it falls back down, it gives off energy as a photon of light The frequency of the light depends on the levels it falls from and to

Equation ΔE = Ef – Ei hν = RH ( 1/nf2 - 1/ni2) frequency of light given off depends on the level transition

Example 1 Calculate the frequency and wavelength of light given off when an electron in a H atom falls from n=4 to n=2. What color is it?

Ionization of Energy Energy that would be needed to completely remove the electron; make it go from n = 1 to n = ∞

Example 2 Calculate the energy required to ionize an electron from the ground state.