Bohr Diagram, Lewis Structures, Valence Electrons Review 1. What is the maximum number of electrons you can fit in each energy level or shell?

Similar documents
Do Now: Bohr Diagram, Lewis Structures, Valence Electrons 1. What is the maximum number of electrons you can fit in each shell?

Ex: N has 5 valence electrons, so it s Lewis structure would look like: N

Democritus & Leucippus (~400 BC) Greek philosophers: first to propose that matter is made up of particles called atomos, the Greek word for atoms

Write the electron configuration for Chromium (Cr):

Chapter 7 QUANTUM THEORY & ATOMIC STRUCTURE Brooks/Cole - Thomson

Table of Contents Electrons in Atoms > Light and Quantized Energy > Quantum Theory and the Atom > Electron Configuration

CHEM Chapter 6. Basic Quantum Chemistry (Homework). WL36

Electrons, Energy, & the Electromagnetic Spectrum Notes Simplified, 2-D Bohr Model: Figure 2. Figure 3 UNIT 4 - ELECTRONS & ELECTRON ARRANGEMENT

Wavelength (λ)- Frequency (ν)- Which of the following has a higher frequency?

10/27/2017 [pgs ]

Electrons, Energy, & the Electromagnetic Spectrum Notes

I understand the relationship between energy and a quanta I understand the difference between an electron s ground state and an electron s excited

2) The energy of a photon of light is proportional to its frequency and proportional to its wavelength.

Energy and the Quantum Theory

5.3. Physics and the Quantum Mechanical Model

Higher -o-o-o- Past Paper questions o-o-o- 3.4 Spectra

10/4/2011. Tells you the number of protons

Physics and the Quantum Mechanical Model

EM SPECTRUM, WAVELENGTH, FREQUENCY, AND ENERGY WORKSHEET

The Sine Wave. You commonly see waves in the environment. Light Sound Electricity Ocean waves

2) The number of cycles that pass through a stationary point is called A) wavelength. B) amplitude. C) frequency. D) area. E) median.

Chapter 6. Quantum Theory and the Electronic Structure of Atoms Part 1

NOTES: 5.3 Light and Atomic Spectra (more Quantum Mechanics!)

The Bohr Model of the Atom

Lecture 6: The Physics of Light, Part 1. Astronomy 111 Wednesday September 13, 2017

The Electron Cloud. Here is what we know about the electron cloud:

The ELECTRON: Wave Particle Duality

The ELECTRON: Wave Particle Duality. chapter 4

Duncan. Electrons, Energy, & the Electromagnetic Spectrum Notes Simplified, 2-D Bohr Model: Figure 1. Figure 2. Figure 3

The Bohr Model Bohr proposed that an electron is found only in specific circular paths, or orbits, around the nucleus.

Modern Atomic Theory and the Periodic Table

Chapter 5 Electrons In Atoms

Electrons! Chapter 5

CHAPTER 4 10/11/2016. Properties of Light. Anatomy of a Wave. Components of a Wave. Components of a Wave

Today is Thursday, March (!) 1 st, 2018

CHEMISTRY - TRO 4E CH.7 - THE QUANTUM-MECHANICAL MODEL OF THE ATOM

Producing and Harnessing Light

Properties of Light and Atomic Structure. Chapter 7. So Where are the Electrons? Electronic Structure of Atoms. The Wave Nature of Light!

Chapter Test B. Chapter: Arrangement of Electrons in Atoms. possible angular momentum quantum numbers? energy level? a. 4 b. 8 c. 16 d.

Chapter 5 Electrons In Atoms

Calendar. October 23, Chapter 5 Notes Waves.notebook Waves vocab waves ws. quiz PSAT. Blank. elements test. demo day

Chemistry. Slide 1 / 72. Slide 2 / 72. Slide 3 / 72. Atomic Structures Practice Problems

Chapter 7. Quantum Theory and Atomic Structure

AP Chapter 6 Study Questions

Electromagnetic Radiation. is a form of energy that exhibits wavelike behavior as it travels through space.

ATOMIC STRUCTURE, ELECTRONS, AND PERIODICITY

Atomic Structure. Standing Waves x10 8 m/s. (or Hz or 1/s) λ Node

Name Date Class MODELS OF THE ATOM

Ch 9 Electrons in Atoms & the Periodic Table Study Sheet Acc. Chemistry SCANTRON. Name /99. 3) Light is a type of matter. 3)

ATOMIC STRUCTURE, ELECTRONS, AND PERIODICITY

WEEK 2: 4 SEP THRU 10 SEP; LECTURES 4-6

Name Date Class ELECTRONS IN ATOMS

Unit 3: Electron configuration and periodicity

AST 105 Intro Astronomy The Solar System. MIDTERM II: Tuesday, April 5 [covering Lectures 10 through 16]

CHM 111 Unit 7 Sample Questions

Development of the Periodic Table. Chapter 5. Light and the EM Spectrum. Light

CHEMISTRY - ZUMDAHL 8E CH.7 - ATOMIC STRUCTURE & PERIODICITY.

Modern Atomic Theory CHAPTER OUTLINE

Introduction. Electromagnetic Waves. Electromagnetic Waves

CHAPTER 5 Electrons in Atoms

UNIT 4 Electrons in Atoms. Advanced Chemistry 235 Lanphier High School Mr. David Peeler

CHEMISTRY - KIRSS 2E CH.3 - ATOMIC STRUCTURE: EXPLAINING THE PROPERTIES OF ELEMENTS

Unit 3. Chapter 4 Electrons in the Atom. Niels Bohr s Model. Recall the Evolution of the Atom. Bohr s planetary model

Atomic Structure Early Theories Democritus: 4 B.C.: atom Dalton: atoms cannot Thomson: Cathode Ray Tubes Rutherford:

Chapter 6 Electronic Structure of Atoms

Chapter 5. The Electromagnetic Spectrum. What is visible light? What is visible light? Which of the following would you consider dangerous?

Sample Exercise 6.1 Concepts of Wavelength and Frequency

Chapter 9. Blimps, Balloons, and Models for the Atom. Electrons in Atoms and the Periodic Table. Hindenburg. Properties of Elements Hydrogen Atoms

Let s start with ionization energy - The minimum energy needed to remove and electron from an atom.

ASTRONOMY 161. Introduction to Solar System Astronomy. Class 9

Quick Review. 1. Kinetic Molecular Theory. 2. Average kinetic energy and average velocity. 3. Graham s Law of Effusion. 4. Real Gas Behavior.

History of the Atomic Model

Atomic Structure Part II Electrons in Atoms

5.1 Light & Quantized Energy

Electrons in Atoms. Section 5.1 Light and Quantized Energy

Atomic Structure Part II. Electrons in Atoms

Ch 7 Quantum Theory of the Atom (light and atomic structure)

Properties of Light. Arrangement of Electrons in Atoms. The Development of a New Atomic Model. Electromagnetic Radiation CHAPTER 4

Classify each of these statements as always true, AT; sometimes true, ST; or never true, NT.

ATOMIC STRUCTURE ELECTRON CONFIGURATION 10/13/15 PROJECT DATE. Tuesday, October 13, 15

= λ. Light: The Cosmic Messenger. Continuing Topics for Today 1/24/17. Your account on Mastering Astronomy. ASTR 1040 Stars & Galaxies

Name Date Period Unit 3 Review: Electrons and the periodic table

Atomic Structure 11/21/2011

Chapter 6. Electronic Structure of Atoms

What is LIGHT? Reading Question

1. Draw a wave below and label the following parts: peak, trough, wavelength and amplitude

Atomic Theory C &03

Information in Radio Waves

Lecture 11 Atomic Structure

Lab: Excited Electrons

Keep protons in the nucleus from repelling each other. Atomic Number Mass Number Atomic Mass number of protons determines identity of atom

Chapter 5 Light and Matter: Reading Messages from the Cosmos. What is light? Properties of Waves. Waves. The Electromagnetic Spectrum

c = λν 10/23/13 What gives gas-filled lights their colors? Chapter 5 Electrons In Atoms

c = l Light: The Cosmic Messenger 1/23/18

The Nature of Light. Chapter Five

CHEMISTRY Matter and Change

Chapter 5 Models of the Atom

Light. October 16, Chapter 5: Electrons in Atoms Honors Chemistry. Bohr Model

CHAPTER 4 Arrangement of Electrons in Atoms

Modern Atomic Theory and Electron Configurations

Transcription:

AP Chemistry Ms. Ye Name Date Block Bohr Diagram, Lewis Structures, Valence Electrons Review 1. What is the maximum number of electrons you can fit in each energy level or shell? 1 st shell 2 nd shell 3 rd shell 4 th shell 2. What is the main difference between a Bohr diagram and a Lewis structure? 3. What is the maximum number of valence electrons an atom can have? Complete the Table Below: Element Subatomic Particles Bohr Diagram # Valence Electrons Lewis Structure Phosphorus-31 # protons= # neutrons= # electrons= Electromagnetic Radiation a form of that has wavelike properties all forms found in the spectrum The different forms of EMR arranged in order from lowest energy to highest energy

Properties of Waves i. Wavelength and frequency are two important properties of waves. ii. iii. iv. - The shortest distance between two equivalent points (meters) - How many waves pass a certain point per second (1/s or s - or Hz). - The height of a wave from crest to origin. v. What kind of relationship do frequency and wavelength have? vi. What kind of relationship do frequency and Energy have? vii. What kind of relationship do energy and wavelength have? Energy, Wavelength, and Frequency: Qualitative Comparisons: 1. WAVE A WAVE B Wave B has a frequency than wave A. Wave B has a wavelength than wave A. Wave B has a energy than wave A. 2. When comparing the radio stations 96.7 MHz and 92.3 MHz a. Which one has a higher energy? b. Which one has a longer wavelength? 3. Red light has a longer wavelength than blue light a. Which color light has a higher energy associated with it? b. Which color light is emitted at a higher frequency?

Photons Released during. Tiny particles that have no All photons travel at the which carry a quantum of Can calculate wavelength if we know frequency and vice versa. in a vacuum (c = 3.00 x 10 8 m/s) Photons behave as particles o Quantum the amount of energy that can be absorbed or released from an atom. Cannot be any value but are in discrete energy levels ENERGY EQUATIONS E= energy h= Planck s Constant = 6.626 x 10-34 J*s c= speed of light = 3.00 x 10 8 m/s = = v= frequency (in Hz or 1/sec) λ=wavelength in meters EXAMPLES: 1. What is the frequency of green light, which has a wavelength of 4.9 x 10-7 m? 2. A popular radio station broadcasts with a frequency of 94.6 MHz. What is the wavelength of the broadcast? 3. What is the energy of an infrared wave with the frequency of 2.56 x 10 11 Hz? 4. What is the energy of an x-ray which has a wavelength of 0.24 nm? 5. The energy of a wave is 1.98 x 10-20 J. What is the wavelength in nanometers?

Electrons and Energy Levels Each electron has a distinct amount of related to the energy level it is in Electrons with the lowest energy are found Electrons with the highest energy are found The from the nucleus, the of the electron Ground State vs. Excited State Ground state=when the electrons occupy the Excited state=one or more electrons (leaving the lower energy levels to be not completely full) When an electron, it jumps to a energy level or shell o This is a very condition o We call this condition the Very rapidly, an electron in the excited state will and move back to a energy level or shell o When excited electrons fall from an excited state to a lower energy level, they release energy in the form of (which can be infrared, ultraviolet, or visible) (Energy: heat, light, electricity) Photon (Energy: light) Bright Line Emission Spectrum (Visible Light Spectrum) Electrons falling from an down to the give off light Different elements produce different colors of light or The atomic emission spectrum is for (just like a human fingerprint is unique to each person). Spectral lines can be used to identify different elements.

Phosphoresence Demo 1. Explain what happened in the demo (what caused the strip to phosphoresce?). Make sure to use the terms energy, ground state, and excited state in your explanation. 2. Calculate the minimum energy a photon must have to cause the strip to phosphoresce, or glow.

Energy Calculations HW When the electrons of Lithium, Sodium, and Potassium are excited, they emit red, orange, and purple colored light when the excited electrons return to the ground state. 1. For Li +, Na +, and K +, calculate: a. the frequency of emitted light Li + Na + K + b. the energy emitted by one photon in Joules Li + Na + K +

c. the energy released when one mole of electrons returns to the ground state in kj/mol. Li + Na + K + 2. Rank the Group 1 elements tested in order of increasing energy emission when 1 mole of electrons returns to the ground state. Explain this pattern in terms of changes in energy levels.

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback