chapter 2 matter is made up of atoms
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Chapter 2 Matter is Made up of Atoms. Warm-up Question #1. What is the difference between a theory and a law?. Everything in chemistry comes back to haunt you . Atomic Theory. Greek Philosophers (about 2,500 years ago). Democritus (460-370 BC). - PowerPoint PPT PresentationTRANSCRIPT
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Chapter 2
Matter is Made up of Atoms
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Warm-up Question #1
What is the difference between a theory and a law?
Everything in chemistry comes back to haunt you
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Atomic Theory
Greek Philosophers(about 2,500 years ago)
Democritus(460-370 BC)
• Atoms are the smallest particles of matter and different types of atoms exist for every type of matter.– The idea that matter is made
up of fundamental particles called atoms is known as the atomic theory of matter.
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Atomic TheoryAntoine Lavoisier(1782)
• When a chemical reaction occurs, matter is neither created nor destroyed but only changed.– This became known as the
law of conservation of matter.
Joseph Proust(1799)
• The elements that compose a compound are always in a certain proportion by mass.– This principle is now referred
to as the law of definite proportions.
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Dalton’s Atomic Theory
• John Dalton (1803)
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Dalton’sAtomic Theory
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Discovery of the Electron• J.J. Thomson (1897)– Discovered that Dalton’s solid ball model was not accurate.
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The Cathode Ray Experiment• Conclusion…– The rays bent toward a positively charged plate
and away from a negatively charged plate.• Objects with like charges repel each other, and objects
with unlike charges attract each other.
– Cathode rays are made up of invisible, negatively charged particles referred to as electrons.
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Thomson’s Plum Pudding Model
• J.J. Thomson (1910)• The “Plum Pudding”
Model
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Exit Question #1
If an electrical field was applied to the cathode ray tube below. Which direction (up or down) would the beam of light be bent ?
+ + + +
- - - -
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Bench Mark
• If you haven’t done so already, you should:– Read pages 51-60 or your text– Complete Homework #1
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Warm-up QuestionsWhy is the path of the red ball to the right when it gets hit by the white cue ball?
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The Gold Foil Experiment• Ernest Rutherford (1909)– Revealed that Thomson’s plum
pudding model was not accurate.
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Discovery of the Nucleus• Conclusion…– Because most of the particles passed through the foil, they
concluded that the atom is nearly all empty space.– Because a few particles were deflected, they proposed
that the atom has a small, dense, positively charged central core, called a nucleus.
“It was quite the most incredible event that has ever happened to me in my life. It was almost as incredible as if you fired a 15-inch shell at a piece of tissue paper and it came back and hit you” – E. Rutherford
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Rutherford’s Nuclear ModelRutherford’s Nuclear Model
- Consisting of a nucleus and electrons - Protons and Neutrons hadn’t been discovered yet.
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Further Atomic Developments– Scientists also determined that
the rays in the cathode ray tube were also composed of positively charged subatomic particles called protons.
– Atoms of an element that are chemically alike but differ in mass are called isotopes of an element.• The existence of a neutral
particle, called a neutron, was confirmed in the early 1930s.
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Exit Question
• What keeps the electrons from leaving the atom?
• Bonus: What keeps the electrons in motion away from the nucleus?
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Warm-up Question
Examine the picture below. What percentage of all the fruit pictured is bananas?
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Atomic Particles
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Atomic Particles• The atomic number of an element is the number of protons in the
nucleus of an atom of that element.– It is the number of protons that determines the identity of an element,
as well as many of its chemical and physical properties.
Atomic number = number of protons = number of electrons
• The sum of the protons and neutrons in the nucleus is the mass number of that particular atom.– Isotopes of an element have different mass numbers because they have
different numbers of neutrons, but they all have the same atomic number.
Mass number = number of protons + number of neutrons
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Atomic Particles
• The number at the bottom of each box is the average atomic mass of that element.– This number is the
weighted average mass of all the naturally occurring isotopes of that element.
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Atomic Mass ProblemsWhat is average atomic mass of Lithium if 7.42% exists as Li-6 (6.015g)and 92.58% exists as Li-7 (7.016 g)?
The atomic mass of neon 20.18. Isotope X has a mas of 20.000g and isotope Y has a mass of 22.189g. Which isotope is more abundant, X or Y?
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Exit Question
• What are the similarities and differences between these 3 diagrams?
e
e
e
e
e
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Benchmark
• If you haven’t done so already, you should:– Read pages 61-68 in the text– Complete homework #2
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Warm-up Question #4
• Order these nesting dolls from the inside out.
AB
CD
E
F
Russian Matryoshka Dolls
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Bohr’s Planetary Model
Niels Bohr (1913)– He proposed that atoms
have only certain allowable energy states• Ground state• Excited state
– Electrons move around the nucleus in only certain allowed circular orbits.
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The Electron Cloud Model• Bohr’s planetary model
was found to be inaccurate.– The electron cloud model
shows that electrons are most likely to be found in certain spherical regions of space around the nucleus.• The space around the
nucleus of an atom where the atom’s electrons are found is called the electron cloud.
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Electron Configuration
• A three-dimensional region around the nucleus called an atomic orbital describes the electron’s probable location.
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Electron Configuration
• The arrangement of electrons in an atom is called the atom’s electron configuration.1. Principle energy level (1, 2, 3, 4, etc…)2. Energy sublevel (s, p, d, or f)3. Atomic orbital4. The number of electrons in those orbitals
Energy Level Sublevel Atomic Orbitals Number of Electrons
1 s 1 2
2 s, p 1, 3 2, 6
3 s, p, d 1, 3, 5 2, 6, 10
4 s, p, d, f 1, 3, 5, 7 2, 6, 10, 14
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Electron Configuration
Aufbau Diagram Example• Write the electron
configuration of neon.– Electrons? _____– Electron configuration?
__________________
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Valence Electrons
• The electrons in the outermost energy level are called valence electrons.– When atoms come near each other, it is these electrons
that interact with one another.– Many of the chemical and physical properties of an
element are directly related to the number and arrangement of valence electrons.
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Lewis Dot Structure• A Lewis dot diagram illustrates valence electrons as
dots around the chemical symbol of the element.– Each dot represents one valence electron, and the
element’s symbol represents the core of the atom (the nucleus plus all the inner electrons.
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Electron Configuration and Lewis Dot Structure
• Example…– Write the electron configuration and Lewis dot diagram for
an atom of boron.
ELECTRONS _____
ELECTRON CONFIGURATION ______________
VALENCE ELECTRONS _____
SYMBOL _____
LEWIS DOT DIAGRAM
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Exit Question #4Why does the Lewis dot diagram for helium look different than the diagrams for the other noble gases?
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Benchmark
•If you haven’t done so already, you should:• Review your notes on electron configuration • Do homework #3
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Warm-up Question #5
How are the bright lights in the signs below generated?
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Electromagnetic Spectrum• Electromagnetic radiation is a form of energy that
exhibits wavelike behavior as it travels through space.– All of the forms of radiant energy are parts of a whole
range of electromagnetic radiation called the electromagnetic spectrum.• All waves can be described by several characteristics…
– Wavelength (λ) is the shortest distance between equivalent points on a continuous wave (m, cm, or nm).
– Frequency (ν) is the number of waves that pass a given point per second (1/s, s-1, or Hz).
– Amplitude is the wave’s height from the origin to a crest (or to a trough).
– All waves travel at the speed of light (3.00x108 m/s).
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Light Waves
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Electromagnetic Spectrum
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Wave Problem• Example…
– What is the wavelength of a microwave having a frequency of 3.44x109 Hz?
KNOWNS & UNKNOWNS
FORMULA __________
REARRANGED FORMULA __________
PLUG-IN NUMBERS ____________________
ANSWER (with unit) __________
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Quanta• Matter can gain or lose energy in only small,
specific amounts called quanta.– A quantum is the minimum amount of energy that
can be gained or lost by an atom.
• E = energy in Joules (J)• h = Planck’s constant = 6.626x10-34 (Js)• ν = frequency in Hertz (Hz)
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Wave Problem• Example…
– Tiny water drops in the air disperse the white light of the sun into a rainbow. What is the energy of a photon from the violet portion of the rainbow if it has a frequency of 7.23x1014 Hz?
KNOWNS & UNKNOWNS
FORMULA __________
REARRANGED FORMULA __________
PLUG-IN NUMBERS ____________________
ANSWER (with unit) __________
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Electromagnetic Spectrum
• The atomic emission spectrum of an element is the set of frequencies of the electromagnetic waves emitted by atoms of the element.
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Exit Question #5
• Which of the following waves has the:
A
C
B E
D Longest wavelength?
Highest frequency?
Lowest Energy?
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Benchmark
• If you haven’t done so already, you should:– Read pages 69-79– Complete Homework #4