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Chapter 4

Chapter 4. The Structure of Atoms. Scientists. Democratus Developed atomos All matter is made of particles Aristotle Earth, wind, water, and fire Said Democratus was wrong He was believed for 2000 years John Dalton Atomic Theory “Father of Atomic Theory”.

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Chapter 4

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  1. Chapter 4 The Structure of Atoms

  2. Scientists • Democratus • Developed atomos • All matter is made of particles • Aristotle • Earth, wind, water, and fire • Said Democratus was wrong • He was believed for 2000 years • John Dalton • Atomic Theory • “Father of Atomic Theory”

  3. 5 Points of Dalton’s Atomic Theory • Elements are made of extremely small particles called atoms. • Atoms of a given element are identical in size, mass, and other properties; atoms of different elements differ in size, mass, and other properties. • Atoms cannot be subdivided, created, or destroyed. • Atoms of different elements combine in simple whole-number ratios to form chemical compounds. • In chemical reactions, atoms are combined, separated, or rearranged.

  4. Scientists • Crooks • Cathode Ray Tube • Indicated all matter contained electrons • TV • He saw electrons but didn’t know it • JJ Thomson • Discovered electrons • Measured the charge to mass ratio of an electron • Millikan • 1909 Oil drop experiment • He determined the charge of the electron • Found within 1% of the mass of an electron

  5. Scientists • JJ Thomson • Plum Pudding Model of Electrons • Pudding is positive and plums are negative

  6. Scientists • Rutherford • Gold foil experiment • Hypothesized that when he shot a beam of alpha particles through a sheet of gold foil that the particles would move straight through. This would have proven the plum pudding model to be true.

  7. Gold Foil Experiment • Rutherford saw that the alpha particles (+) were deflected. • This meant that there was a positive mass in the center of the atom.

  8. Scientists • Chadwick • Neutron discovery • National Origin of Scientists • Millikan was the only American • Why? • War, fighting, building a nation

  9. People in the World vs Atoms in a Penny • 6000000000 • 29000000000000000000000 • Which is people on Earth and which is atoms in a penny?

  10. 3 Atomic Particles • Proton • + • In the nucleus • Neutron • 0 • In the nucleus • Electron • - • Outside the nucleus

  11. What Makes Up Atomic Mass? • Protons and nuetrons • Pg 97 • Why are electrons not included?

  12. Spacing in a Hydrogen Atom • I am the nucleus of a hydrogen atom. • My electron would be as far away as the football field. • Most of the atom is empty space

  13. Atomic number = number of protons • Mass number = number of protons and neutrons • In a neutral atom the number of protons is equal to the number of electrons. • An isotope is an atom of the same element with a different number of neutrons.

  14. What determines the type of atom? • Protons • Why are electrons important? • Bonding • What do neutrons do? (What is the charge of a proton? Where are they located?) • Provides nuclear stability • Allow protons not to repel each other

  15. 107Ag 109 Ag 47 47 • 107 and 109 are the mass numbers. • 47 is the atomic number. • The silver with a mass number of 107 has 60 neutrons. • The silver with a mass number of 109 has 62 nuetrons. • These are isotopes of silver. • There are 47 electrons in this neutral atom.

  16. Of the following, which cannot be changed without changing the element? • Mass number • Number of protons • Number of electrons

  17. Amu • Unit for measuring atomic mass • Based on carbon 12 • Defined as 1/12 of the mass of a carbon 12 atom • This is much easier than measuring in grams. • 1 x 10 -24

  18. Average Atomic Mass • Located below the chemical symbol • Why is it a decimal number? • It is a weighted average of isotopic masses

  19. Example: There are two isotopes of Boron, B-10 and B-11, B-10 is found 19.8% of the time and B-11 is found 80.2% of the time. B-10 has a mass of 10.013 amu and B-11 has a mass of 11.009 amu. What is the average atomic mass? • (10.013 amu) .198 + (11.009 amu) .802 = 10.811 amu

  20. Pg 112 59-68 • Pg 805 Compare and contrast chemical and nuclear reactions using a Venn diagram. • Pg 821-826 Compare and contrast nuclear fusion and fission using a Venn diagram.

  21. Chemicalvs Nuclear Reactions • 2H2 + O2 2H20 • In this chemical reaction all the bonds are broken and reformed. • Most reactions occur this way. • The elements are not changed • Valence electrons are used in bonding.

  22. Chemicalvs Nuclear Reactions • What can change the rate of a chemical reaction? • Temperature • Pressure • Concentration of reactants • Catalyst

  23. Chemical vsNuclear Reactions • The only thing the two have in common is that they both involve atoms. • Nuclear reactions emit particles or rays • Not all atoms can do this • They emit huge amounts of energy that involve protons, neutrons, and electrons. • The rate at which this occurs cannot be changed by anything. • Atoms change from one type to another

  24. Fusion vs Fission Fusion Fission Atom is broken Uranium-235 Usually produces radioactive products Atomic bomb • Atoms combine • Thermochemical Reactions • Light atoms (Usually H) fuse to make bigger atoms • Usually does not produce radiation • Extreme energy to initiate • Usually very high temps. • H bomb and the sun

  25. Radiation Table Particle symbol Emitted Charge Approximate Energy 4He 2 α 5 MeV Toward - Alpha + 2 4α 2 .05 to 1 MeV Toward + 0β -1 0e -1 - 1 Beta 1 MeV ϒ 0 Gamma

  26. This must be obeyed! • Nuclear reactions must mass balance and charge balance

  27. Alpha Decay • Emits α particle • Mass number will decrease by 4 and the atomic number will decrease by 2. • Where will the particle show up in a chemical equation? • With the products Ex. 230Th4 He + 226 Ra 90 2 88

  28. You do this alpha decay problem Po 218 84

  29. Po 218 4 He + Pb214 84282

  30. Beta Decay • Remember: nuclear reactions must mass balance and charge balance. • What happens • A nuetron becomes a proton and a beta particle is emitted 1 N 0β + 1 P 0 -1 +1 • The mass number does not change and the atomic number increases by 1.

  31. Beta Decay Example 234Th0β + 234 Pa 90 -1 91 You do 82Pb210 You should get 83 Bi 210

  32. Gamma Decay • No mass and no charge • Accompanies alpha or beta

  33. Positron Decay 1 P 0β + 1 N 11 0 This is the positron

  34. Pg 814 #9 a, b, and c • Pg 837 # 69 a and b

  35. Carbon Dating • Uses radioactive isotopes • Carbon is in all living things • 2 isotopes of Carbon • Carbon 12 and Carbon 13 • Carbon 13 is the radioactive isotope • How does it work? • When you are alive you maintain a stable amount of Carbon 13. When you die it starts to diminish. We use the amount remaining to establish age.

  36. Carbon Dating Amt remaining = (initial amt) ½ t/T t – time elapsed T – half life Half life – time required for half of the radioactive nuclei to decay into stable atoms

  37. The half life of C-13 is 5,730 years • 70 atoms of C-13 5,730 years • 35 atoms of C-13 5,730 years • 17 or 18 atoms of C-13 • 9 atoms of C-13 5,730 years • This is how we carbon date • It takes a very long time to get to 0

  38. Can you carbon date a rock? • No, rocks have never been alive • You can date rocks but you must use a different isotope.

  39. Are protons and neutrons the smallest thing in the nucleus? • No, there are subatomic particles called quarks • Quarks have a charge and they give the particles that they make up a charge. • Electrons are made of leptons.

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