Models of the Atom. Objectives Recognize that science is a progressive endeavor that reevaluates and extends what is already known. (SPI 3221. Inq.1)

Slides:

Advertisements

Similar presentations

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

Advertisements

4-2 Notes Discovering Parts of the Atom

Chapter 4 Atomic Structure

ATOMIC STRUCTURE AND HISTORY

History of the Atomic Model

Atomic Structure Chapter 4 Pg

Subatomic Particles What are three kinds of subatomic particles? 4.2

© Copyright Pearson Prentice Hall Slide 1 of 25 Structure of the Nuclear Atom Cathode-ray tubes are found in TVs, computer monitors, and many other devices.

Early Models of the Atom –An atom is the smallest particle of an element that retains its identity in a chemical reaction. –Philosophers and scientists.

© Copyright Pearson Prentice Hall Structure of the Nuclear Atom > Slide 1 of Subatomic Particles Three kinds of subatomic particles are: ___________________________.

Q: What is a proton? A: A proton is a positively charged subatomic particle found IN the nucleus of an atom. Electron Proton Defining the atom: -An atom.

HIROSHIMA 1945 August 6 th, 1945 ATOMIC THEORY Part 1: Atomic Structure.

History of Atomic Theory

AIM: Models of the Atom DO NOW:

The History of Atomic Theory

Structure of the Nuclear Atom

Learning Standards Atomic Structure Broad Concept: Atomic models are used to explain atoms and help us understand the interaction of elements and compounds.

Atomic Structure History of Atomic Theory. Democritus ( BC) Was the first person to come up with the idea of atom Believed that all matter was.

End Show Slide 1 of 18 © Copyright Pearson Prentice Hall Defining the Atom > Early Models of the Atom An atom is the smallest particle of an element that.

Development of the Atom

PART ONE ATOMIC THEORY. Over the course of thousands of years our idea of what matter is made of and what the atom looks like has changed dramatically.

The Development of the Atomic Theory

Pretest 1. True or False: Compounds have fixed compositions TRUE!

Atomic Structure and History of the Atomic Theory

The Parts of an Atom.

Chapter 4 Atomic Structure

Introduction to Atoms Chapter 4.

Section 2: Atomic Discoveries

For each scientist you need to know  Approximate date of discovery  Discovery  Experiment/Theory  Atomic Structure from their perspective FOCUS.

Atomic Theory. The Atom Recall the atom is the smallest particle making up an element.

What is an atom??? An atom is the smallest particle of an element that retains its identity in a chemical reaction.

Drill 1. What is the atom? 2. How did it evolve over time?

Section Structure of the Nuclear Atom Cathode-ray tubes are found in TVs, computer monitors, and many other devices with electronic displays. 3.

Slide 1 of 18 © Copyright Pearson Prentice Hall Defining the Atom > Atomic Structure Chapter 4 Video 3.

HISTORY OF CHEMISTRY A BRIEF OVERVIEW What have we learned? Experimentation? How scientists work? Some contributions?

Chapter 4 Atomic Structure

The Development of the Atomic Theory. Dalton’s Atomic Theory founder of the atomic theory atoms in Greek means indivisible, indestructible 1.All matter.

History of Atomic Theory from Democritus to Rutherford

Atomic Structure.

400 B.C. Theorized that if you were to cut something in half, then cut it in half again and again… Eventually you would be left with something.

Understanding the Atom

John Dalton’s Atomic Theory  Elements composed of small particles called “atoms”  All atoms of a given element are the same, but different from other.

Slide 1 of 25 Chemistry 4.2. © Copyright Pearson Prentice Hall Slide 2 of 25 Structure of the Nuclear Atom Cathode-ray tubes are found in TVs, computer.

THE STRUCTURE OF THE ATOM.  All atoms consist of 2 regions:  1) Nucleus: very small region located near the center of the atom  Proton: positively.

Ch 5: Atomic Structure. warmup All matter is composed of very small particles called atoms. In middle school science you learned about the atom. 1. Draw.

Atomic Theorists and their Contributions

Can you match the scientists’ names to their pictures? Democritus Dalton JJ Thomson Rutherford Bohr De Broglie Schrodinger.

Atomic Structure Section 4-1. Democritus Greek philosopher 4 th Century BC First to come up with “atom”. Matter is composed of tiny particles called atoms.

DEVELOPMENT OF THE ATOMIC THEORY Atom- smallest particle into which an element can be divided and still be the same substance Called the building blocks.

End Show © Copyright Pearson Prentice Hall Slide 1 of 25 Structure of the Nuclear Atom Cathode-ray tubes are found in TVs, computer monitors, and many.

Atomic Theory Bellwork. Early Atomic Theory Democritus’ Atomic Theory – All matter consists of invisible particles called atoms. – Atoms are indestructible.

Developing a Model of an Atom: Ernest Rutherford  In the early 1900s, Ernest Rutherford designed an experiment to test the Thomson model.

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

Evolution of the atomic model

Models of the Atom S Investigate the historical progression of the atomic model. Include: Dalton, Thompson, Rutherford, Bohr, quantum model.

Pearson Prentice Hall Physical Science: Concepts in Action

UNDERSTANDING THE PROPERTIES OF ELEMENTS

Defining the Atom 4.1 The lab technician shown here is using a magnifying lens to examine a bacterial culture in a petri dish. When scientists cannot see.

2.1 History of the Atom Objectives S1 and S2

Section Structure of the Nuclear Atom

Chapter 4: Atomic Structure

Presentation transcript:

Models of the Atom

Objectives Recognize that science is a progressive endeavor that reevaluates and extends what is already known. (SPI Inq.1) Identify the contributions of major atomic theorists: Dalton, Thomson, Rutherford, and Bohr. (SPI ) Compare and contrast historical models of the atom. (SPI )

Class Opener: Create a drawing that illustrates Dalton’s view of an atom. Based on what you learned about atoms in other science classes, create a diagram that represents the structure of an atom.

JJ Thomson – 1897 – discovered that within atoms there are negatively charged particles – called these particles electrons.

Thomson performed experiments that involved passing electric current through gases at low pressure. The result was a glowing beam called a cathode ray.

A cathode ray is deflected by electrically charged plates. Thomson concluded that a cathode ray is a stream of electrons. Electrons are parts of the atoms of all elements.

These observations changed the way atoms were portrayed since it was now determined that atoms could be further broken down.

– from his findings Thomson developed the “Plum pudding” model. – the atom was filled with positively charged material and the electrons were evenly distributed throughout.

Images of Thomson’s Model

Thomson had correctly concluded that the atom had electrons, was spherically shaped, and electrically neutral.

Ernest Rutherford (1911)- – Gold foil experiment – directed a narrow beam of alpha particles at a very thin sheet of gold foil. – Alpha particles are positively charged particles that are released by certain radioactive elements as they decay.

Rutherford’s Gold Foil Experiment

Rutherford’s gold-foil experiment yielded evidence of the atomic nucleus. a)Rutherford and his coworkers aimed a beam of alpha particles at a sheet of gold foil surrounded by a fluorescent screen. Most of the particles passed through the foil with no deflection at all. A few particles were greatly deflected. b)Rutherford concluded that most of the alpha particles pass through the gold foil because the atom is mostly empty space. The mass and positive charge are concentrated in a small region of the atom. Rutherford called this region the nucleus. Particles that approach the nucleus closely are greatly deflected.

Alpha particles scatter from the gold foil

The Rutherford Atomic Model Rutherford concluded that the atom is mostly empty space. All the positive charge and almost all of the mass are concentrated in a small region in the center of the atom. He called this tiny core the nucleus.

As Rutherford’s model of the atom was being analyzed, it predicted that, according to the theory of electricity and magnetism, opposite charges attract each other and the electrons would lose energy and spiral inward toward the nucleus. Niels Bohr came up with a theory that explained why electrons do not spiral inward.

Bohr’s Atomic Model He stated that electrons follow two rules: 1.Electrons orbit at specific distances from the nucleus. ( All electrons can be found at a certain distance form the nucleus in an orbital.) 2.Atoms give off energy when an electron jumps from a higher energy orbit to a lower energy orbit and atoms absorb energy when the electron gets blasted from a low energy orbit to a high energy orbit.

His model was known as the planetary model since the electrons are orbiting around the nucleus much like the planets orbit around the Sun.

Bohr’s Model of the Atom Niels Bohr (1913) - – Planetary Model – electron is found only in specific circular paths, or orbits, around the nucleus.

Summary of the Atomic Models Dalton’s model- shows that an atom is made up of solid particles and cannot be further broken down Thomson’s model- the “plum pudding” model; the atom is made of protons and electrons that are scattered throughout

Rutherford’s model- protons are found in the center of the atom in the nucleus and electrons are scattered in the empty space that surrounds it Bohr’s model- the “planetary model”; protons and neutrons are found in a central nucleus and electrons are placed in orbits that circle around the nucleus at a specific distance

What is still unclear about today’s lesson?

After today’s lesson, on your guided notes, draw the Thomson, Rutherford, and Bohr models of the atom.