Chemistry Chapter 5 Review Game

Slides:

Advertisements

Similar presentations

Do Now: Take out your vocab 1. What is light?

Advertisements

Chapter 5 Review “Electrons in Atoms”

Arrangement of Electrons

Electron Configuration Chemistry I Mr. Pena. Bohr’s Atom Model -Confines electrons in shells -Electrons loses energy due to movement. -Electrons can be.

Chemistry Chapter 4 Arrangement of Electrons in Atoms

The Quantum Model of the Atom

Chapter 4 Electron Configurations. Early thoughts Much understanding of electron behavior comes from studies of how light interacts with matter. Early.

Chapter 4 Arrangement of Electrons in Atoms 4.1 The Development of a New Atomic Model.

Arrangement of Electrons in Atoms Chapter 4. Properties of Light Electromagnetic Radiation- which is a form of energy that exhibits wavelength behavior.

Chapter 6 Review and Breathe. The Wave Nature of Light Electromagnetic radiation is one way energy travels through space. Wavelength is inversely proportional.

CHAPTER 5 ELECTRON CONFIGURATION. ANALOGY OF THE ATOM UNITED STATES  NEW JERSEY  MIDDLESEX COUNTY  EDISON Township  YOUR HOUSE  ATOM ENERGY LEVEL.

Electrons in Atoms Chapter 5 General Chemistry. Objectives Understand that matter has properties of both particles and waves. Describe the electromagnetic.

Chapter 4 Electron Configuration. Radiant Energy Energy from all angles Waves – Wave height – Wave length – Trough – Crest – Amplitude – Frequency.

Development of Atomic Models

Chapter 4 Arrangement of Electrons in Atoms. 4-1 The Development of the New Atomic Model Rutherford’s atomic model – nucleus surrounded by fast- moving.

Aufbau Principle An electron occupies the lowest energy orbital that can receive it.

Chapter 7 Atomic Structure & Periodicity. Electromagnetic Radiation O Waves (wavelength, frequency & speed) O  c (page 342: #39) O Hertz O Max Planck.

Chemistry Chapter 5 Review Game. Atomic Models Electron Arrangement Electron Configuration The Physics of Chemistry 1 point 1 point 1 point 1 point 1.

Light is an electromagnetic wave EM wave- a form of energy that exhibits wavelike behavior as it travels through space All the forms of EM radiation form.

Light is an electromagnetic wave EM wave- a form of energy that exhibits wavelike behavior as it travels through space.

Electron Configurations Chapter 5. Heisenberg Uncertainty Principle 1927 – German Physicist Werner Heisenberg States that it is nearly impossible to know.

Chapter 5 Electrons in Atoms The Bohr Model An electron is found only in specific circular paths, or orbits, around the nucleus. Each orbit has a fixed.

Section 4-1 Continued.  Ground State – the lowest energy state of an atom  Excited State – a state in which an atom has a higher energy than in its.

Electrons in Atoms Chapter 5. Chapter 5: Electrons in Atoms 5.1 Light and Quantized Energy Wave nature of light.

Chapter 5 Review. Vocabulary Discrete bundle of energy Energy needed to move an electron from one energy level to another Separation of light into different.

Section 1 The Development of a New Atomic Model Properties of Light The Wave Description of Light Electromagnetic radiation is a form of energy that exhibits.

Section 4-3 Electron Configurations. Quantum Mechanical Model Energy Levels have sublevels Each sublevel contains orbitals –Orbital – a 3-D region around.

Chapter 5 Review. Wave Nature of Light Wavelength- Wavelength- The distance between two consecutive peaks or troughs. Frequency- Frequency- The number.

Electrons in Atoms Chapter Wave Nature of Light  Electromagnetic Radiation is a form of energy that exhibits wavelike behavior as it travels through.

Chapter 5 UEQ Electrons in Atoms What does an atom really look like?

Chapter 5 - Electrons in the Atom What is an atom?

Electron Structure. Bohr Model Used to explain the structure of the Hydrogen Atom –Hydrogen has only one electron This electron can only circle the nucleus.

The Development of A New Atomic Model

Unit 4 Energy and the Quantum Theory. I.Radiant Energy Light – electrons are understood by comparing to light 1. radiant energy 2. travels through space.

CHAPTER 11 NOTES MODERN ATOMIC THEORY RUTHERFORD’S MODEL COULD NOT EXPLAIN THE CHEMICAL PROPERTIES OF ELEMENTS.

Chapter 5.  Energy transmitted from one place to another by light in the form of waves  3 properties of a wave;  Wavelength  Frequency  Speed.

Light Light is a kind of electromagnetic radiation, which is a from of energy that exhibits wavelike behavior as it travels through space. Other forms.

Quantum Mechanical Model of the Atom

Chapter 5: Electron Configurations

Which scientist developed the quantum mechanical model of the atom?

Chapter 5 Review “Electrons in Atoms”

Arrangement of Electrons in Atoms

Electrons In Atoms.

Chapter 5 Review Electrons in Atoms.

Chapter 13 Electrons in Atoms.

Chapter 5 Electrons in Atoms.

Chapter 5 Review “Electrons in Atoms”

Chapter 5 Notes Electrons.

QUANTUM MECHANICAL MODEL OF THE ATOM

Quantum Theory.

QUANTUM MECHANICAL MODEL OF THE ATOM

Which scientist developed the quantum mechanical model of the atom?

Chemistry 1 Chapter 5 Notes Part II Quantum Theory of the atom

Arrangement of electrons

Electrons in Atoms Chapter 5.

Electron Orbitals Heisenberg 1. The ____________ ______________ principle states that it is impossible to determine simultaneously both the position and.

Quantum Theory.

Modern Theory of the Atom: Quantum Mechanical Model

Electrons in Atoms Chapter 5.

ELECTRONS IN ATOMS.

Quantum Theory.

QUANTUM MECHANICAL MODEL OF THE ATOM

Electronic Structure of the Atom

Quantum Theory.

Electron Arrangement.

Electrons in Atoms Rutherford’s model has some limitations

Ch 4 Arrangement of Electrons in Atoms 4

Quantum Theory.

Chapter 4 Electron Arrangement.

ELECTRONS IN ATOMS.

Presentation transcript:

Chemistry Chapter 5 Review Game Jeopardy Chemistry Chapter 5 Review Game

Select a Category 1 point 2 points 3 points 4 points 5 points Chapter 5 1 point 2 points 3 points 4 points 5 points

Region of high probability of finding an electron 1 point Check

Electron orbital 1 point Back to Category Slide

States impossibility of knowing both location and velocity of an electron. 2 points Check

Heisenberg Uncertainty Principle 2 points Back to Category Slide

Lowest energy level 3 points Check

Ground state (this is in matching format on the test – 1st energy level is not an option) 3 points Back to Category Slide

Tendency of electrons to enter lowest energy level first. 4 points Check

Aufbau principle 4 points Back to Category Slide

Arrangement of electrons around the nucleus 5 points Check

Electron configuration 5 points Back to Category Slide

States each orbital has at most 2 electrons. 1 point Check

Pauli Exclusion Principle 1 point Back to Category Slide

Discrete bundle of electromagnetic energy 2 points Check

photon 2 points Back to Category Slide

Energy required to move an electron up an energy level 3 points Check

quantum 3 points Back to Category Slide

Number of wave cycles passing a given point per unit of time 4 points Check

frequency 4 points Back to Category Slide

Distance between wave crests 5 points Check

wavelength 5 points Back to Category Slide

Separation of light into different wavelengths 1 point Check

spectrum 1 point Back to Category Slide

Frequencies of light emitted by an element 2 points Check

Atomic emission spectrum 2 points Back to Category Slide

In the Bohr model, an electron has a fixed _______ 3 points Check

energy 3 points Back to Category Slide

How does the energy of an electron change when it moves closer to the nucleus? 4 points Check

It decreases 4 points Back to Category Slide

The principle quantum number indicates what for an electron 5 points Check

Its energy level 5 points Back to Category Slide

Shape of a p orbital 1 point Check

Dumbbell shaped 1 point Back to Category Slide

Number of sublevels in the 2nd principle energy level 2 points Check

2 2 points Back to Category Slide

Maximum number of f orbitals in an energy level 3 points Check

7 3 points Back to Category Slide

If the spin of an electron is clockwise in an orbital, what is the spin of the other electron in the same orbital? 4 points Check

Counter-clockwise 4 points Back to Category Slide

If 3 electrons are available to fill a p sublevel, how will they be distributed? 5 points Check

One in each orbital, and they will all have the same spin 5 points Back to Category Slide

Congratulations! You have completed the game of Jeopardy.