ch. 3.2 atomic structure

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Ch. 3.2 Atomic Structure On your bell work sheet, answer the following. 1. When are zeros significant? 2. When do you use the fewest number of Significant Figures?

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Ch. 3.2 Atomic Structure. On your bell work sheet, answer the following. When are zeros significant? When do you use the fewest number of Significant Figures?. Chapter 3.2 Atomic Structure Preview. Objectives The Structure of the Atom Properties of Subatomic Particles - PowerPoint PPT Presentation

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Page 1: Ch. 3.2 Atomic Structure

Ch. 3.2 Atomic Structure

On your bell work sheet, answer the following.

1. When are zeros significant? 2. When do you use the fewest

number of Significant Figures?

Page 2: Ch. 3.2 Atomic Structure

• Objectives• The Structure of the Atom• Properties of Subatomic Particles• Discovery of the Electron• Discovery of the Atomic Nucleus• Gold Foil Experiment• Gold Foil Experiment on the

Atomic Level• Composition of the Atomic

Nucleus• The Sizes of Atoms

Chapter 3.2 Atomic Structure Preview

Page 3: Ch. 3.2 Atomic Structure

Ch. 3.2 Objectives• Summarize the observed properties of

cathode rays that led to the discovery of the electron.

• Summarize the experiment carried out by Rutherford and his co-workers that led to the discovery of the nucleus.

• List the properties of protons, neutrons, and electrons.

• Define atom.

Page 4: Ch. 3.2 Atomic Structure

The Structure of the Atom• An atom is the smallest particle of an element that retains the chemical properties of that element.

• The nucleus is a very small region located at the center of an atom.

• The nucleus is made up of at least one positively charged particle called a proton and usually one or more neutral particles called neutrons.

Page 5: Ch. 3.2 Atomic Structure

The Structure of the Atom

• Surrounding the nucleus is a region occupied by negatively charged particles called electrons.

• Protons, neutrons, and electrons are often referred to as subatomic particles.

Page 6: Ch. 3.2 Atomic Structure

Visual Concept

Parts of the Atom

Page 7: Ch. 3.2 Atomic Structure

Properties of Subatomic Particles

Page 8: Ch. 3.2 Atomic Structure

J.J. THOMSON 1856-1940

What particle did Thomson discover?

J.J. Thomson discovered that atoms are made of smaller negatively-charged particles called electrons.

Thomson’s discovery was the result of doing experiments with “cathode ray tubes”

Page 9: Ch. 3.2 Atomic Structure

THOMSON’S CATHODE RAY EXPERIMENT

Stream of electrons is attracted to positively charged plate here.

“What are these particles? Are they atoms, or molecules, or matter in a

still finer state of subdivision?” quote by Thomson

Page 10: Ch. 3.2 Atomic Structure

Cathode Rays Attracted to the positive

electrode Not visible but could make things

“glow” Traveled in a straight line Could be bent by electric or

magnetic fields A plate in it’s path acquired a

negative charge Same regardless of material

Page 11: Ch. 3.2 Atomic Structure

THE PLUM PUDDING MODEL

Thomson did not know how the electrons in an atom were arranged. He believed they were mixed throughout an atom.

He proposed that the atom was a sphere of positively charged material. • Spread throughout the atom were

the negatively charged electrons similar to plums in a pudding or chocolate chips in ice cream.

Page 12: Ch. 3.2 Atomic Structure

Discovery of the Electron Charge and Mass of the Electron

Joseph John Thomson’s cathode-ray tube experiments measured the charge-to-mass ratio of an electron.Robert A. Millikan’s oil drop experiment measured the charge of an electron.

With this information, scientists were able to determine the mass of an electron.

Page 13: Ch. 3.2 Atomic Structure

Visual Concept

Millikan’s Oil Drop

Experiment

Page 14: Ch. 3.2 Atomic Structure

ERNEST RUTHERFORD(1871 - 1937)

Awarded the Nobel Prize in Chemistry for his discovery of alpha particles, positively charged particles emitted from radioactive elements

Was a student of J.J. Thomson but disagreed with the “Plum Pudding Model”

Page 15: Ch. 3.2 Atomic Structure

Discovery of the Atomic Nucleus• Ernest Rutherford and his

associates Hans Geiger and Ernest Marsden wanted to investigate the atom more.

• The results of their gold foil experiment led to the discovery of a very densely packed bundle of matter with a positive electric charge.

• Rutherford called this positive bundle of matter the nucleus.

Page 16: Ch. 3.2 Atomic Structure

Gold Foil Experiment

Page 17: Ch. 3.2 Atomic Structure

WHAT DID MOST OF THE PARTICLES SHOT AT THE GOLD FOIL DO?

Most of the particles traveled straight through the gold foil What was the surprising behavior of a few of the particles? A few of the particles were deflected and some even bounced back

Page 18: Ch. 3.2 Atomic Structure

Gold Foil Experiment on the Atomic Level

Page 19: Ch. 3.2 Atomic Structure

Composition of the Atomic Nucleus

• Except for the nucleus of the simplest type of hydrogen atom, all atomic nuclei are made of protons and neutrons.

• A proton has a positive charge equal in magnitude to the negative charge of an electron.

• Atoms are electrically neutral because they contain equal numbers of protons and electrons.

• A neutron is electrically neutral.

Page 20: Ch. 3.2 Atomic Structure

Composition of the Atomic Nucleus

• The nuclei of atoms of different elements differ in their number of protons and therefore in the amount of positive charge they possess.

• Thus, the number of protons determines that atom’s identity.

Page 21: Ch. 3.2 Atomic Structure

Composition of the Atomic Nucleus

Forces in the NucleusWhen two protons are extremely close to each other, there is a strong attraction between them.

A similar attraction exists when neutrons are very close to each other or when protons and neutrons are very close together.The short-range proton-neutron, proton-proton, and neutron-neutron forces that hold the nuclear particles together are referred to as nuclear forces.

Page 22: Ch. 3.2 Atomic Structure

Nuclear Forces

Page 23: Ch. 3.2 Atomic Structure

The Sizes of Atoms• The radius of an atom is the distance from the center of the nucleus to the outer portion of its electron cloud.

• Because atomic radii are so small, they are expressed using a unit that is more convenient for the sizes of atoms.

• This unit is the picometer, pm.

Page 24: Ch. 3.2 Atomic Structure

WHY IS THE HEAD OF A PIN COMPARED TO THE DIAMETER OF A STADIUM LIKE AN ATOM?

The diameter of a pinhead is 100,000 times smaller than the diameter of a stadium. Likewise the diameter

of the nucleus of an atom is 100,000 times smaller than the diameter of an atom

Page 25: Ch. 3.2 Atomic Structure

Open Socrative, take the exit ticket over today’s

lesson• Summarize the observed properties of

cathode rays that led to the discovery of the electron.

• Summarize the experiment carried out by Rutherford and his co-workers that led to the discovery of the nucleus.

• List the properties of protons, neutrons, and electrons.

• Define atom.