Development of Atomic Theory Note-taking Directions

Slides:

Advertisements

Similar presentations

Democritus Dalton 3. JJ Thomson 4. Rutherford 5. Bohr 6. Chadwick

Advertisements

HISTORY OF THE ATOMIC MODEL ATOMIC THEORY

Atomic Model History.

8 TH Grade Development of Atomic Theory. 1. Democritus (430 BC) proposes the idea that matter is formed of small pieces that could not be cut into smaller.

Historical Development of an Atom. Democritus B.C Democritus was a Greek philosopher ( B.C.) who is the father of modern atomic thought.

The Development of Atomic Theory Chapter 4.1 Notes.

Atomic Structure Timeline

History of Atomic Theory

Atomic Structure.

History of the Atom SWBAT #1: Describe the development of the model of the atom through history SWBAT #2: Identify the main components of the nuclear atom.

5.1 Evolution of the Atomic Model

History of Atomic Theory

AIM: Models of the Atom DO NOW: Element Y has two isotopes: Y-27 and Y-29. Y-27 has an abundance of 43% and Y-29 has an abundance of 57%. What is the average.

Scientists and Their Contribution to the Model of an Atom

History of Atomic Theory

Atomic Theory Song.

Atomic Structure Scale of the Universe.

Atomic History and Theories

Atomic Structure.

Sections 1 and 2 Atomic History and Structure

Atomic Theory “History of. . . ”.

Atomic Theory A Brief History.

Elements, Atoms & the Atomic Structure

Atomic History and Theories

The evolution of the atom

Historical Development of an Atom

Theories of the Atom.

Do Now Turn in Webquest/Timeline, etc if you did not turn it in to the sub. Agenda for today: go over atomic history and structure.

Work in partners and grab a textbook or your phone and make a timeline of the main scientists who contributed to the atomic structure. Include Democritus,

Atomic Models Through Time

Bell Ringer We mentioned the Periodic Table of __________ yesterday.

History of the Atom.

3.1 – Atomic Theory and the History of the Atom

History of Atomic Theory

SCH3U Unit 1: Matter, Chemical Trends and Chemical Bonding

1.3 History of the Atom Objectives 3:a,c,d; 5

Agenda Development of Atomic Model History Atomic Structure Simulation.

History of Atomic Theory

The Development of the Theory on the Atom

Page Review questions: Page 16, #1,2,3,4,7

Chapter 3- Atomic Structure

AP Chem Today: Atoms Review

BELLWORK 9/11/17 What is the atom?

Atom Model History - Democritus a fifth century B.C. Greek philosopher proposed that all matter was composed of indivisible particles called atoms (Greek.

Unit 2: History of the Atom

Pay Attention! You have a quiz Monday!

Discovering the Atom.

Do First Actions: Turn in yesterday’s electron, proton, and neutron practice if you did not get it stamped Questions: If a neutral atom has an atomic mass.

Atomic Structure Timeline

Chem Today: Development of Atomic Model History.

Atomic Theories: How do we know what atoms are made of?

History of the Atom.

Chapter 4 Atoms 1. Atomic Structure Timeline

Atomic Structure Timeline

Atomic Structure “Jiminy Jillikers!”.

Atomic Structure.

Get Ready! Materials Today’s Agenda 5-in-5 Atomic Theory Video

Chapter 4 Atoms.

SCH3U Unit 1: Matter, Chemical Trends and Chemical Bonding

Atomic Theory The idea that matter is made up of atoms, the smallest pieces of matter.

Chapter 4 Atoms.

Atomic Structure Timeline

Atomic History and Theories

Atomic Models Through Time

Presentation transcript:

Development of Atomic Theory Note-taking Directions There are 7 people who made the most important contributions to the development of an accurate atomic model. For each you must write the person’s name, the year and the information in red. You must also make your own drawing that represents the atomic model proposed at that time. Watch the animations. No writing is required about them. We will review the animations in class. Remember, you will be using your notes to draw a timeline so make sure you include all required parts – you cannot use this ppt for the timeline.

Development of Atomic Theory 1. Democritus (430 BC) proposes that matter is formed of small pieces that could not be cut into smaller parts. He called the small pieces “atomos” – Greek for uncuttable.

2. John Dalton proposes the Atomic Theory (1803) Atomic Theory states: All matter is made of atoms. Atoms are indivisible and indestructible. 2) All atoms of a given element are identical in mass and properties 3) Compounds are formed by a combination of two or more different kinds of atoms. He described atoms as being like smooth, hard balls that could not be broken into smaller pieces.

Thomson named the negatively charged particles electrons. 3. J.J. Thomson’s Model (1897) Atoms contain negatively charged particles scattered throughout a ball of positive charge. The positive charge was theorized because scientists knew that the overall atom was neutral. Thomson named the negatively charged particles electrons. watch: Cathode Ray Tube Experiment

4. Ernest Rutherford’s Model (1911) An atom’s positive charge is clustered in the center of the atom, called the nucleus, and the rest of the atom is mostly empty space in which the atom’s super tiny electrons move around at high speed. Discovered the positively charged nucleus through the Gold Foil Experiment He named the positively charged particles protons. Watch the Gold Foil Experiment

Gold Foil Experiment Model DO NOT COPY Gold Foil Experiment Model (radon) alpha particle

Gold Foil Experiment Predicted Results DO NOT COPY Gold Foil Experiment Predicted Results If Thomson’s model was correct, the alpha particles (a He nucleus) would mostly pass straight through the foil, with just a few being slightly deflected.

DO NOT COPY Observed Results of the Gold Foil Experiment Observed: most passed straight through a few slightly deflected 1-8000 alpha particles were deflected at an angle greater than 90 degrees.

What conclusions did Rutherford and his team make from these results? The majority of the mass of the atom is concentrated in the center – nucleus - of the atom This mass is positively charged and very small (deflection occurs because like charges repel) The electrons – negatively charged particles – surround the nucleus. The atom is mostly empty space.

5. Niels Bohr’s Model (1913) Electrons have only specific amounts of energy, leading them to move at specific distances from the nucleus. These different distances are called orbitals, shells or energy levels.

6. Quantum Mechanical Model (development of model began in 1926 by Erwin Schrödinger) More precisely explains observations of complex atoms based on quantum theory which explains that it is impossible to know the exact position and momentum of an electron at the same time. uses complex shapes of orbitals (also called electron clouds) which are volumes of space in which there is likely to be an electron.

DO NOT NEED TO COPY THIS PAGE – READ before moving forward As Rutherford’s students studied atomic disintegration, they kept seeing that the atomic number (number of protons in the nucleus, equivalent to the positive charge of the atom) was less than the atomic mass (average mass of the atom). For example, a helium atom has an atomic mass of 4, but an atomic number (or positive charge) of 2. Since electrons have almost no mass, it seemed that something besides the protons in the nucleus were adding to the mass. http://www.pbs.org/wgbh/aso/databank/entries/dp32ne.html

7. In 1932, James Chadwick proves the existence of the neutron 7. In 1932, James Chadwick proves the existence of the neutron. Updated Bohr’s model to include neutrons in the nucleus. watch video of Chadwick’s experiment

If you are not sure what a timeline should look like then Google “timeline images” There are many variations/styles – choose what you like and what will work for this particular assignment.