Using the EMR chart answer the following: 1

Slides:

Advertisements

Similar presentations

Wavelength, Frequency, and Energy Practice Problems

Advertisements

Which one of these transitions in the Bohr hydrogen atom model leads to the emission of the photon with the longest wavelength? ni = 1 → nf = 3 ni = 6.

Unit 4 – Electrons Exam Review.

Wave & Particle Nature of Light EQ: How can an atom be a "particle" and a "wave" at the same time?

Electromagnetic Spectra Review Game. When do electrons emit light? Moving from higher to lower energy levels.

Electromagnetic Radiation Definition: Characteristics of Waves Wavelength (λ): Frequency (v): Amplitude: Draw and Label the parts of a wave: Other relevant.

Review Relay Ch 5 & 6. 1.NO TALKING 2.Each group must complete all 5 questions correctly 3.One turn per person 4.Your turn consists of answering the next.

Section 1 chapter 4. Electromagnetic Radiation (EMR) - a form of energy that travels in waves which includes radio waves, T.V. waves, microwaves, visible.

Light and Electrons! Ch 11. Light & Atomic Spectra A Brief Bit of History (development of the quantum mechanical model of the atom) Grew out of the study.

Electronic Behavior of Atoms. LO Describe how light is created. Explain how wavelengths of light relate to energy levels in the atom. SC View the spectrum.

Chapter 5: Electrons in Atoms

Chapter 5: Electrons in Atoms. Why focus on electrons? Scientists wanted to know why certain elements behaved similarly to some elements and differently.

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

Electromagnetic Spectrum Basics Pg

Chemistry Jeopardy Chemistry Jeopardy Chapter 4 Catch the Wave Step into the Light Orbit an Orbital Electron Fun Figure or Configure Me Bohr Me Famous.

Do Now: 1.If you could solve one problem using science, what would it be? 2.What branch of science do you think you would need to use to solve the problem?

Chemistry Jeopardy Chemistry Jeopardy Chapter 4 Catch the Wave Step into the Light Orbit an Orbital Electron Fun Figure or Configure Me Bohr Me Famous.

Electrons and the Electromagnetic Spectrum. Electromagnetic Radiation: energy that exhibits wavelike behavior and travels at the same speed Properties.

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

5.3 Atomic Emission Spectra and the Quantum Mechanical Model 1 > Copyright © Pearson Education, Inc., or its affiliates. All Rights Reserved. Chapter 5.

The Electromagnetic Spectrum It’s more than just the rainbow.

The Electromagnetic Spectrum

Electrons in Atoms Chapter 4.

Physics and the Quantum Mechanical Model

Light, Electromagnetic Spectrum, & Atomic Spectra

The Electromagnetic Spectrum Part 1

Chapter 5 Review “Electrons in Atoms”

Rutherford Model Know where the protons and neutrons are, but where are the electrons? If opposite charges attract, why do the electrons not fall into.

Speed Formula - Waves.

Electromagnetic Radiation

WAVES AND THE ELECTROMAGNETIC SPECTRUM

Light and the Atomic Spectra

SCH4C UNIT 1: MATTTER AND QUALITATIIVE ANALYSIS Atomic Theory 2

The whole range is called a continuous spectrum

Chapter 5 Review “Electrons in Atoms”

The Bohr Model (1913) revolve sun energy

Electromagnetic Spectrum

Have you ever wondered how you get different colored fireworks?

The ELECTRON: Wave – Particle Duality

Chem Today: Bohr Diagrams, Waves, Energy Next class: Flame Test Lab.

Warm-up 11/6/15 Turn in Chapter 3 Warm-ups.

Sections 6.1 – 6.3 Electromagnetic Radiation and its Interaction with Atoms Bill Vining SUNY College at Oneonta.

Bohr Model of Atoms & Electron Energy 2.5

Waves and Electromagnetic Radiation

Bohr Model of Atoms & Electron Energy 2.5

Electromagnetic radiation

The ELECTRON: Wave – Particle Duality

Light and the electron Quest continues to discover the structure of atom and how electrons are arranged within atoms.

Review Lepton Number Particle Lepton number (L) electron 1 neutrino

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

e–’s absorb (+) energy, move to outer levels

Electromagnetic Radiation

Arrangement of Electrons in Atoms

Quantum Theory.

Chapter 4:Arrangement of Electrons in atoms

c =  f E = ℏf Where : ℏ = 6.63 x J٠s velocity -

Warm-up Example 3 from Practice Atomic Mass notes on pg 31!

Energy that can travel directly through space in the form of waves.

Electrons as Waves Part I.

Electromagnetic Spectrum

Quantum Physics – Photons Mr Nesbo

Electromagnetic Spectrum

Chapter 9 Lesson 1 Quiz review

Ch. 5 - Electrons in Atoms Waves & Particles.

Arrangement of Electrons

The E.M.S. S1 Physics Energy.

Light and the electron.

Chapter 5 Review Questions

Presentation transcript:

Using the EMR chart answer the following: 1 Using the EMR chart answer the following: 1. Which radiation has the shortest wavelength? 2. Which type of radiation has the lowest frequency? 3. Has a wavelength of 2.35x10-8 m

What is the wavelength of a 3.65x1026 Hz wave?

Fill in the chart based on E, υ, and λ Directly Proportional Define: Indirectly Proportional

What is the frequency of photon with 8.34x10-24 joules of energy?

A X-ray and Microwave are traveling parallel to one another, what 3 statements can you make about these two waves?

What is the frequency of red light that is 4.60x10-7 m?

Relay Question 2

Relay Question 1

Relay Question 4

Relay Question 3

Relay Question 5

Relay Question 6

1.Draw a Bohr model for neutral Aluminum. 2.Draw a Bohr Model for Al3+

What is the energy of a photon oscillating at a rate of 3.59 s-1?

Write the 4 states of an electron transition to giving off a photon Write the 4 states of an electron transition to giving off a photon. Draw Diagrams.

Summarize how a neutral atom can become an ion.

Relay Question 8

Relay Question 7

Relay Question 10

Relay Question 9