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The Structure of the Atom

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Title: The Structure of the Atom


1
The Structure of the Atom
  • CHAPTER 4

2
Early Theories of Matter
3
460-370 BC Democritus
  • Greek Philosopher
  • Named atom
  • smallest unit of matter
  • means indivisible

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1807 John Dalton Atomic Theory
  • Revived and revised Democritus ideas and began
    developing the modern atomic theory

6
Daltons Atomic Theory
  • all elements are composed of tiny indivisible
    particles called atoms
  • atoms of same element alike. Each element is
    different from atoms of other elements
  • atoms of different elements combine in simple
    whole number ratios to form compounds
  • chemical reactions occur when atoms are
    rearranged

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  • Picture shows
  • Conservation of Mass
  • Element combing in simple whole number ratios

9
Subatomic Particles the Nuclear Atom
  • Chapter 4

10
A. Discovering the Electron
11
1879 William Crookes
  • investigated electrical discharge in gases
  • cathode ray tube
  • Cathode rays are streams of negatively charged
    particles.
  • The particles are found in all forms of matter

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1897 J.J. Thomson
  • determined nature of cathode ray
  • determined charge to mass ratio of electron
  • Found that atoms were divisible - Dalton
    Democritus were wrong

14
1901 J.J. Thomson
  • positive beam experiments
  • plum pudding model of atom or chocolate-chip
    cookie dough model of the atom

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1909 Robert Milliken
  • determined charge of electron
  • oil drop experiment
  • with Thomsons charge to mass ratio able to
    determine the mass of e-
  • Mass of electron 9.1x10-28 grams

17
1911 Ernest Rutherford
  • discovered nucleus
  • gold foil experiment disproved plum pudding model
  • small dense central part of atom nucleus
  • () charge

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1920 Rutherford
  • Refined concept of nucleus
  • Concluded that nucleus contained positively
    charged particles called protons

22
1932 James Chadwick
  • identified neutron
  • same mass as proton
  • no charge

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How Atoms Differ
26
NUCLEUS
  • Protons with () charge
  • Neutrons with no charge.
  • Protons neutrons have about the same mass.
  • () charge is responsible for most of mass of
    atom (dense central part).

27
ELECTRONS
  • move around nucleus
  • responsible for most of volume of atom
  • (-) charge
  • negligible mass

28
ATOMIC NUMBER MASS NUMBER
29
ATOMIC NUMBER
  • of protons in nucleus
  • it identifies the element
  • elements in Periodic Table are listed in
    increasing order of atomic
  • if atom is neutral the of protons equals of
    electrons

30
MASS NUMBER
  • sum of protons neutrons in nucleus
  • written as part of name must be given to you
  • Neon-20 mass 20 p n 20
  • atomic 10 p 10
  • n 10

31
  • mass
  • p n
  • Symbol
  • atomic
  • p
  • ? neutrons

32
  • Oxygen-17
  • mass 17
  • atomic 8
  • p n 17
  • p _8_
  • 9 n

33
  • To calculate electrons for an ion you must look
    at the charge written in the upper right corner
  • To determine the number of electrons
  • If the charge is positive then subtract that
    number from the number of protons.
  • If the charge is negative then add that number to
    the number of protons

34
ISOTOPES
  • Atoms of the same element are not all identical -
    may differ in of neutrons
  • Isotopes - atoms of the same elements (same of
    protons), but different mass (different
    neutrons) and therefore different masses

35
  • 12 13 14
  • C C C
  • 6 6 6
  • ? neutrons
  • 6 7 8

36
ATOMIC MASS
37
ATOM
  • smallest unit of an element that can exist alone
    and still have the properties of that element

38
Atomic Mass
  • Average Atomic Mass - weighted average of the
    masses of the naturally occuring isotopes
  • relative mass based on carbon-12 as the standard
  • Carbon-12 is defined as having a mass of exactly
    12 amu
  • atomic mass unit (amu) - 1/12 of the mass of a
    carbon-12 atom

39
Weighted Average Example
  • 50 test 70
  • 30 Lab 80
  • 20 Daily 90
  • 50(70) 30(80) 20(90)
  • .5(70) .3(80) .2(90)
  • 35 24 18
  • 77

40
Isotopes of Hydrogen
  • H-1 protium 1.0078 99.985
  • H-2 deuterium 2.0140 0.015
  • H-3 tritium 3.0160 -------

41
Calculating Average Atomic Mass
  • Multiply the percent (as a decimal ) by the mass
    and then add each together.
  • 99.985 (1.0078 amu) 0.015 (2.0140 amu)
  • .99985 (1.0078 amu) .00015 (2.0140 amu)
  • 1.0076488 amu 0.0003021 amu
  • 1.00795 amu

42
Example
  • chlorine - 35 75.8
  • chlorine - 37 24.2
  • Will the average atomic mass be closer to 35 or
    37?
  • (35 because higher )
  • 75.8(35) 24.2(37)
  • 35.5 amu

43
Example
  • Calculate the average atomic mass for boron. Be
    as accurate as possible. Use values from table
    on p. 281. Check your answer by looking at the
    periodic table.
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