Chapter 4 – The Atom Evolution of the Atomic Model Democritus (400 bc)

Slides:

Advertisements

Similar presentations

Advertisements

The Structure of the Atom

Believing What You Cannot See

Chapter 4 Atomic Structure

Unit 2 – Atomic Theory Chapter 4 & 11.2 Unit Test:

Chapter 4 Atomic Structure IRON ATOMS.

CHAPTER 4 – ATOMIC STRUCTURE:

Anything in black letters = write it in your notes (‘knowts’)

Chapter 4 Atomic Structure

4.1 Defining the Atom Early Models Democritus (about 400BC)- matter composed of tiny, indivisible particles Dalton (about 1800)- - used scientific method.

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.

Chapter 5 Sections 2 and 3 Structure of an atom nucleus- center of an atom -discovered by Ernest Rutherford in 1911 proton (p+) -positively charged subatomic.

Democritus – 460 – 370 BC p. 101 Matter consisted of tiny particles “atomos” Ideas were wrong P. 122 – Q - 35.

Chapter 2 – Atoms, Molecules, and Ions

Chapter 5 Atomic Structure

Development of the Atomic Theory

History of the Atom; Modern Atomic Theory, Subatomic Particles

“Atomic Structure” Essential Question: Describe how the model of the atom has changed since the Greek idea of “Atomos”

Chapter 5 Atomic Structure and the Periodic Table.

The Atomic Model Chem 9.

ATOMIC STRUCTURE & PERIODIC TABLE

History of Atomic Structure

Unit: Atomic Structure

Chemistry Sheds Light on Our Lives Unit 4 Atoms and Light

History Behind the Atomic Theory

OHHHHH YEAHHHHH.  400 BC Greece-philosophers  Democritus said that there must be something that cannot be divided  He called this particle atomos 

Chapter 5 Review. Atomic Theory/Scientists Who was the first person to theorize the existence of the atom in 400 BC? Who was the first person to theorize.

Chapter 4: Atomic Structure

Ch 7. Understanding the atom & Ch 8. elements and chemical bonds

Atomic Structure.

Atomic Structure History and Theories. The Greeks 4 th century B.C. Democritus “Atomists” school of thought Matter is composed of tiny indivisible particles.

THE ATOM Objectives: Understand the experimental design and conclusions used in the development of modern atomic theory, including Dalton’s Postulates,

Lecture Notes Chapter 4-The Structure of the Atom

Chapter 4: Atomic Structure

Matter & The Atom. Matter  The term matter describes all of the physical substances around us  Anything that has mass and volume (takes up space) 

Chapter 4: Atomic Structure

The Structure of the Atom

Chemistry AI Chapter 4 A. Atom (Section 4.1) 1. Democritus (460B.C.-370B.C.) The smallest part of an element that retains its identity during a chemical.

Development of the Atomic Theory READ pp

Starter S-23 What are the 3 parts of an atom?. Atomic Structure Chapter 4.

Chapter 5 – Atomic Structure Atoms Structure of An Atom Distinguish Between Atoms The Periodic Table.

Ch. 4: Atomic Structure 4.1 Defining the Atom. History  Democritus named the most basic particle named the most basic particle atom- means “indivisible”

Development of the Atomic Theory. Democritus 460 BC - Greek philosopher proposes the existence of the atom ; calls it Atomos meaning indivisible. His.

Unit 2 - Lecture 1: Structure of the Atom

Atomic Theory and Structure. The Theory of the Atom _________ __, a Greek teacher in the 4th Century B.C., first suggested the idea of the atom. _________.

Atoms Chapter 4.

1 The Structure of the Atom. 2 Early Theories of Matter.

The Atom Chapters 4-5 Atomic Theories Democritus ~ 400 BC believed that atoms were indivisible and indestructible Dalton ~ 1800’s Developed through experiments.

Chemistry 1 Chapter 5 – Atomic Structure & The Periodic Table.

Atomic Models and Quantum Theory Review Atomic Models Subatomic Particles IsotopesStructure of the Atom

The Structure of the Atom

CP Chemistry Chapter 8 Atomic Theory Subatomic Particles Protons Protons Neutrons Neutrons Electrons Electrons.

The Beginning of the Atomic Theory Democritus was a Greek philosopher who was among the first to suggest the existence of atoms. 460 BC – 370 BC.

Chapter 5: Atomic Structure and the Periodic Table.

Smallest particle of an element that retains the properties of the element.

Atomic Structure CHAPTER 4. Defining the Atom ✴ An atom is the smallest particle of an element that still has the chemical properties of that element.

History of the Atom. Atoms and Elements Any material that is composed of only one type of atom is called an element. An atom is the smallest particle.

Atoms CHAPTER 4 1. Let’s Review! o Matter is… o Anything that has mass and takes up space o All matter is made of elements – substances that cannot be.

History of the Atomic Theory An atom is the smallest particle of an element that retains its identity in a chemical reaction. Our current theory of the.

1 UNIT 2 Atoms, Molecules, and Ions. 2 The Power of 10 nceopticsu/powersof10/

Chapter 3: Discovering the Atom and Subatomic Particles

Atomic Structure.

1 The History of Atomic Theory A long and winding road Section 4.1.

Atoms Chapter 4.

History of the discovery of Atomic Structure

Models of the Atom.

Chapter 4 Atoms.

Chapter 4 Atoms.

Chapter 4 Atoms.

Chapter 4 Atoms.

Presentation transcript:

Chapter 4 – The Atom Evolution of the Atomic Model Democritus (400 bc) First to conceptualize the atom. He thought that matter was composed of tiny particles. The word atom means ‘indivisible’.

The Atom Evolution of the Atomic Model John Dalton (1700’s) Creates the Law of Definite Composition.. States that atoms look like very small spheres. He thinks that they are hard and are electrically neutral.

The Atom Evolution of the Atomic Model J.J. Thomson (1800’s) Using a Crooke’s Tube, he observes a Cathode Ray.

The Atom Evolution of the Atomic Model J.J. Thomson (Late 1800’s) Theorized that the gream beam of light was actually made of small particles. He discovered that the particles had a negative electric charge.

The Atom Evolution of the Atomic Model J.J. Thomson (Late 1800’s) Thomson develops the ‘Plum Pudding’ model of the atom. An electrically positive sphere with small negative charges (electrons) dispersed throughout it.

The Atom Evolution of the Atomic Model Eugen Goldstein (Late 1800’s) At about the same time Thomson discovered the electron, Goldstein discovered the proton in the same way. The proton was a positively charged partical that was 2000 times heavier than the electron.

The Atom Evolution of the Atomic Model Ernest Rutherford Rutherford conducts the Gold Foil Experiment in 1913..

The Atom Evolution of the Atomic Model Ernest Rutherford Made the following conclusions about the atom; The center of the atom consists of a hard and dense core called the nucleus. The nucleus is have a positive electrical charge. All of the mass of the atom is concentrated in the nucleus. The electrons are are located around the nucleus.

The Atom Evolution of the Atomic Model Ernest Rutherford But there was a problem -

The Atom Evolution of the Atomic Model Niels Bohr (1920’s) Proposed that the electrons are ‘stuck’ in paths that orbit around the atomic nucleus. He called these paths ‘orbitals’.

The Atom Evolution of the Atomic Model Niels Bohr (1920’s) But there is another problem – Electrons that move in circular paths should emit light. So why don’t atoms glow?

The Atom Evolution of the Atomic Model Erwin Schoedinger (1940’s) Schroedinger proposes the Electron Cloud Model. The electrons are moving so fast that they appear as a cloud around the atomic nucleus.

The Atom Evolution of the Atomic Model Erwin Schoedinger (Electron Cloud Model) The electrons are highly organized within the ‘cloud’. Electrons are found in regions around the atomic nucleus called Quantums, Sublevels, and Orbitals.

The Atom Evolution of the Atomic Model Sir James Chadwick (1920’s) Chadwick notices that some atoms of the same elements appear to have different masses. He discovered electrically neutral particles found in the atomic nucleus which he called neutrons.

The Atom The Subatomic Particles amu (atomic mass unit) – smallest mass of an atom Particle Symbol Electric Charge Location Mass Electron e- -1 Around the nucleus 1/2000 amu Proton P+ +1 Nucleus 1 amu Neutron n0

The Atom Isotopes Isotopes are atoms of the same element with a different number of neutrons. Isotopes have the same chemical and physical properties, but their masses will differ.

The Atom Isotopes How many protons, neutrons, and electrons does each isotope of hydrogen have?

The Atom Isotopes The average atomic mass of an isotope is the weighted average of all isotopes of the element that exist.

Isotopes The Atom Calculating Average Atomic Mass Since the average atomic mass is a weighted average, we need to know the weight. The % abundance of an isotope is the number of isotopes present per 100 atoms of the element.

Isotopes Percent Abundance 99.985% 0.014% 0.001% The Atom Isotopes Percent Abundance 99.985% 0.014% 0.001%

Isotopes The Atom Calculating Average Atomic Mass Average atomic mass = (relative abundance of first isotope)(atomic mass) + (relative abundance of 2nd isotope)(atomic mass) + ….

The Atom Isotopes Calculate the average atomic mass of Hydrogen. H-1 has percent abundance of 99.985%, H-2 is 0.014% , and H-3 is 0.001%.

The Atom Ions Electrically charged atoms due to a loss or gain of an electron(s). An atom that gains an e- becomes negatively charged. S + 2e-  S-2 Nonmetals tend to gain electrons.

Ions The Atom Negatively charged atoms are called anions. Write the equation for the formation of the oxygen ion;

The Atom The Periodic Table – Organizes the elements based on chemical properties. Metals are located on the left side. Nonmetals are located on the right side.

The Atom The Periodic Table – The metalloids are located inbetween the metals and the nonmetals (purple).

The Atom The Periodic Table – Vertical columns on the periodic table are called groups. Elements within the same group have similar chemical properties.

The Atom The Periodic Table – Horizontal rows on the periodic table are called periods. Each period on the periodic table represents one cycle of a range of chemical properties.