Unit 3 – Atomic Structure Bravo – 15,000 kilotons.
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Transcript of Unit 3 – Atomic Structure Bravo – 15,000 kilotons.
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Unit 3 – Atomic Structure
Bravo – 15,000 kilotons
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Democritus
• 400 BC
• Greek philosopher
• 1st to come up with idea of atoms
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John Dalton – 1800’s
• Major contributor of Atomic Theory1)All matter made of atoms2)All atoms of an element are alike3)Atoms cannot be created or
destroyed4)Atoms combine in whole-number
ratios to form compounds
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JJ Thomson – late 1800’s
• Cathode Ray Experiment – discovery of electrons
• “Plum Pudding” model of atom
• Measured charge to mass ratio of e-
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Thomson’s Atomic Model
Thomson believed that the electrons were like plums embedded in a positively charged “pudding,” thus it was called the “plum pudding” model.
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Discovery of the ElectronDiscovery of the ElectronI n 1897, J .J . Thomson used a cathode ray tube to deduce the presence of a negatively charged particle.
Cathode ray tubes pass electricity through a gas that is contained at a very low pressure.
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Conclusions from the Study of the Electron
Cathode rays have identical properties regardless of the element used to produce them. All elements must contain identically charged electrons.
Atoms are neutral, so there must be positive particles in the atom to balance the negative charge of the electrons
Electrons have so little mass that atoms must contain other particles that account for most of the mass
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Millikan - 1910
Oil Drop Experiment
Determined actual charge and mass of an e-
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Rutherford - 1910
Discovered nucleus and that it was positive
Gold Foil Experiment1) Most of atom is empty space (majority of particles went straight through)
2) nucleus is small, dense and positively charged (some positive charges were greatly deflected)
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Rutherford’s Gold Foil Experiment
Alpha particles are helium nuclei Particles were fired at a thin sheet of
gold foil Particle hits on the detecting screen
(film) are recorded
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Rutherford’s Findings
The nucleus is small The nucleus is dense The nucleus is positively charged
Most of the particles passed right through
A few particles were deflected VERY FEW were greatly deflected
“Like howitzer shells bouncing off of tissue paper!”
Conclusions:
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Niels Bohr - 1915
• Proposed early model of atom• “Planetary Model” electrons orbit
nucleus like planets orbit sun• Lacks math of modern version• Has some errors/violates current theory • Radiation is emitted when electrons
move from one orbit to another
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Chadwick
Discovered neutrons
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Modern Atomic Theory(changes from Dalton)
Atoms of an element have a characteristic average mass which is unique to that element (isotopes)
Atoms cannot be subdivided, created, or destroyed in ordinary chemical reactions. However, these changes CAN occur in nuclear reactions!
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Foundations of Atomic Theory
Law of Conservation of Mass: mass is neither created or destroyed in ordinary chemical reactions
Law of Definite Proportions (composition): compounds contain same elements in same ratio by massExample: NaCl is always 39.9% Na and 60.66% Cl by mass
Law of Multiple Proportions: 2 or more different compounds composed of same two elements have ratios of small whole numbersExample: CO vs CO2 ratio of oxygen to oxygen is 2 to 1
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What is AMU?
Stands for atomic mass unit – used when describing “relative” atomic masses
This system is used because the actual masses of atoms are so small
Carbon-12 is the standard to which all other elements are compared (i.e. hydrogen-1 has a mass that is 1/12 that of carbon-12 so it’s mass would be 1 amu)
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Atomic NumberAtomic number (Z) of an element is the number of protons in the nucleus of each atom of that element.
Element # of protons Atomic # (Z)
Carbon 6 6
Phosphorus 15 15
Gold 79 79
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Mass NumberMass number is the number of protons and neutrons in the nucleus of an isotope.Mass # = p+ + n0
Nuclide p+ n0 e- Mass #
Oxygen - 10
- 33 42
- 31 15
8 8 1818
Arsenic 75 33 75
Phosphorus 15 3116
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Atomic Masses
Isotope Symbol Composition of the nucleus
% in nature
Carbon-12
12C 6 protons6 neutrons
98.89%
Carbon-13
13C 6 protons7 neutrons
1.11%
Carbon-14
14C 6 protons8 neutrons
<0.01%
Atomic mass is the average of all the naturally isotopes of that element.Carbon = 12.011
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IsotopesIsotopes are atoms of the same element having different masses due to varying numbers of neutrons.Isotope Proto
nsElectron
sNeutron
sNucleus
Hydrogen–1
(protium)
1 1 0
Hydrogen-2
(deuterium)
1 1 1
Hydrogen-3
(tritium)
1 1 2
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ISOTOPES
• Example: • Carbon, C, exists in 3 isotopes:
Isotope Protons Neutrons
Mass
Carbon-12
6 6 12
Carbon-13
6 7 13
Carbon-14
6 8 14
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Isotope symbols
Hyphen notation Nuclear notation
Carbon – 12 12C 6p+ and 6no
Carbon – 13 13C 6p+ and 7no
Carbon – 14 14C 6p+ and 8no
6
6
6
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How to Calculate the Average Mass
What is the average atomic mass of sample of Cesium with 3 isotopes:
75% 133Cs, 20% 132Cs, and 5% 134Cs. 0.75 x 133 = 99.750.20 x 132 = 26.400.05 x 134 = 6.70
Total = 132.85 avg. atomic mass
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The Mole
1 dozen =1 gross =
1 ream =
1 mole =
12
144
500
6.02 x 1023
There are exactly 12 grams of carbon-12 in one mole of carbon-12.
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Avogadro’s Number6.02 x 1023 is called “Avogadro’s Number” in honor of the Italian chemist Amadeo Avogadro (1776-1855).
Amadeo Avogadro
I didn’t discover it. Its just named after
me!
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Calculations with Moles:Converting moles to grams
How many grams of lithium are in 3.50 moles of lithium?
3.50 mol Li= g Li
1 mol Li
6.94 g Li45.1
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Calculations with Moles:Converting grams to moles
How many moles of lithium are in 18.2 grams of lithium?
18.2 g Li= mol Li
6.94 g Li
1 mol Li2.62
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Calculations with Moles:Using Avogadro’s Number
How many atoms of lithium are in 3.50 moles of lithium?
3.50 mol Li = atoms Li
1 mol Li
6.022 x 1023 atoms Li 2.11 x 1024
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Calculations with Moles:Using Avogadro’s Number
How many atoms of lithium are in 18.2 g of lithium?
18.2 g Li
= atoms Li
1 mol Li 6.022 x 1023 atoms Li
1.58 x 1024
6.94 g Li 1 mol Li
(18.2)(6.022 x 1023)/6.94