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Chapter 11 Preview Section 1 Development of the Atomic Theory
Introduction to Atoms Preview Section 1 Development of the Atomic Theory Section 2 The Atom Concept Mapping
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Section 1 Development of the Atomic Theory
Chapter 11 Bellringer The following is a quote by Democritus (c. 460–c. 370 bce). Paraphrase this quote in your own words in your science journal. “Color exists by convention, sweet by convention, bitter by convention; in reality nothing exists but atoms and the void.” What do you know about Democritus? And why are his thoughts important?
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Section 1 Development of the Atomic Theory
Chapter 11 Objectives Describe some of the experiments that led to the current atomic theory. Compare the different models of the atom. Explain how the atomic theory has changed as scientists have discovered new information about the atom.
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The Beginning of the Atomic Theory
Section 1 Development of the Atomic Theory Chapter 11 The Beginning of the Atomic Theory What Is an Element? Around 440 BCE, a Greek philosopher named Democritus thought that you would eventually end up with a particle that could not be cut. He called this particle an atom. From Aristotle to Modern Science Aristotle, another Greek philosopher, disagreed with Democritus’s ideas. He believed that you would never end up with a particle that could not be cut.
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The Beginning of the Atomic Theory, continued
Section 1 Development of the Atomic Theory Chapter 11 The Beginning of the Atomic Theory, continued From Aristotle to Modern Science Democritus was right, though: Matter is made of particles, which we call atoms. An atom is the smallest particle into which an element can be divided and still be the same substance.
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Dalton’s Atomic Theory Based on Experiments
Section 1 Development of the Atomic Theory Chapter 11 Dalton’s Atomic Theory Based on Experiments Dalton’s Theory John Dalton published his atomic theory in His theory stated that all substances are made of atoms. Atoms are small particles that cannot be created, divided, or destroyed. Atoms of the same element are exactly alike, and atoms of different elements are different. Atoms join with other atoms to make new substances. Not Quite Correct The atomic theory was then changed to describe the atom more correctly.
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Thomson’s Discovery of Electrons
Section 1 Development of the Atomic Theory Chapter 11 Thomson’s Discovery of Electrons Negatively Charged Particles Thomson experimented with a cathode-ray tube like the one shown on the next slide. He discovered negatively charged particles that are now known as electrons. Like Plums in Pudding After learning that atoms contain electrons, Thomson proposed a new model of the atom. Thomson thought that electrons were mixed throughout an atom, like plums in a pudding.
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Section 1 Development of the Atomic Theory
Chapter 11
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Rutherford’s Atomic “Shooting Gallery”
Section 1 Development of the Atomic Theory Chapter 11 Rutherford’s Atomic “Shooting Gallery” Negatively Charged Particles In 1909, Ernest Rutherford aimed a beam of small, positively charged particles at a thin sheet of gold foil. The next slide shows his experiment. Surprising Results Rutherford expected the particles to pass right through the gold in a straight line. To Rutherford’s great surprise, some of the particles were deflected.
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Section 1 Development of the Atomic Theory
Chapter 11
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Where Are the Electrons?
Section 1 Development of the Atomic Theory Chapter 11 Where Are the Electrons? Far from the Nucleus Rutherford proposed that in the center of the atom is a tiny, positively charged part called the nucleus. Bohr’s Electron Levels In 1913, Niels Bohr proposed that electrons move around the nucleus in certain paths, or energy levels.
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Where Are the Electrons?, continued
Section 1 Development of the Atomic Theory Chapter 11 Where Are the Electrons?, continued The Modern Atomic Theory According to the current theory, there are regions inside the atom where electrons are likely to found. These regions are called electron clouds.
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Comparing Models of the Atom
Section 1 Development of the Atomic Theory Chapter 11 Comparing Models of the Atom Click below to watch the Visual Concept. Visual Concept
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Chapter 11 Section 2 The Atom Bellringer Answer the following question: An atom is the smallest particle into which an element can be divided and still be that element. Now that scientists have learned that an atom is made up of even smaller particles, is this definition still accurate? Explain your answer in your science journal.
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Chapter 11 Objectives Describe the size of an atom.
Section 2 The Atom Chapter 11 Objectives Describe the size of an atom. Name the parts of an atom. Describe the relationship between numbers of protons and neutrons and atomic number.
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Chapter 11 Objectives, continued State how isotopes differ.
Section 2 The Atom Chapter 11 Objectives, continued State how isotopes differ. Calculate atomic masses. Describe the forces within an atom.
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Chapter 11 How Small Is an Atom?
Section 2 The Atom Chapter 11 How Small Is an Atom? Three One-Hundred-Millionths of a Centimeter! Scientists know that aluminum is made of average-sized atoms. An aluminum atom has a diameter of about cm.
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Chapter 11 What Is an Atom Made Of?
Section 2 The Atom Chapter 11 What Is an Atom Made Of? The Nucleus Protons are positively charged particles in the nucleus. Neutrons are the particles of the nucleus that have no electrical charge. Outside the Nucleus Electrons are the negatively charged particles in atoms. Electrons are found around the nucleus within electron clouds. All the structures of the atom can be seen on the next slide.
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Section 2 The Atom Chapter 11
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How Do Atoms of Different Elements Differ?
Section 2 The Atom Chapter 11 How Do Atoms of Different Elements Differ? Starting Simply The hydrogen atom has one proton and one electron. Now for Some Neutrons The helium atom has two protons, two neutrons, and two electrons.
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How Do Atoms of Different Elements Differ?
Section 2 The Atom Chapter 11 How Do Atoms of Different Elements Differ? Building Bigger Atoms For bigger atoms, simply add protons, neutrons, and electrons. Protons and Atomic Number The number of protons in the nucleus of an atom is the atomic number of that atom. All atoms of an element have the same atomic number.
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Section 2 The Atom Chapter 11 Isotopes Isotopes are atoms that have the same number of protons but have different numbers of neutrons.
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Chapter 11 Isotopes, continued
Section 2 The Atom Chapter 11 Isotopes, continued Properties of Isotopes An unstable atom is an atom with a nucleus that will change over time. This type of isotope is radioactive. Telling Isotopes Apart You can identify each isotope of an element by its mass number. The mass number is the sum of the protons and neutrons in an atom.
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Section 2 The Atom Chapter 11 Isotopes, continued
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Chapter 11 Isotopes, continued
Section 2 The Atom Chapter 11 Isotopes, continued Naming Isotopes To identify a specific isotope of an element, write the name of the element followed by a hyphen and the mass number of the isotope. Calculating the Mass of an Element The atomic mass of an element is the weighted average of the masses of all the naturally occurring isotopes of that element.
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Section 2 The Atom Chapter 11
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Chapter 11 Forces in Atoms
Section 2 The Atom Chapter 11 Forces in Atoms Four Basic Forces Four basic forces are at work everywhere, even within the atom. These forces are gravitational force, electromagnetic force, strong force, and weak force. These forces work together to give an atom its structure and properties.
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Section 2 The Atom Chapter 11
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Chapter 11 Concept Mapping
Introduction to Atoms Concept Mapping Use the terms below to complete the Concept Mapping on the next slide. a nucleus mass number isotopes protons atoms electrons atomic number
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Chapter 11 Introduction to Atoms
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Chapter 11 Introduction to Atoms
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