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Radio Activity and Carbon Dating

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Title: Radio Activity and Carbon Dating


1
Radio ActivityandCarbon Dating
  • Mr. Bartelt

2
Background on radioactivity
  • Radioactivity was first discovered in 1896 by the
    French scientist Henri Becquerel while working on
    phosphorescent materials.
  • Wrapped a photographic plate in black paper and
    placed phosphorescent minerals on them.
  • All results were negative until he tried using
    uranium salts. The result with these compounds
    was a deep blackening of the plate.

3
  • The blackening of the plate had nothing to do
    with phosphorescence because the plate blackened
    when the mineral was kept in the dark.
  • The key was uranium. Non-phosphorecent uranium
    turned the plate black. Even uranium metal
    worked.

4
  • At first it seemed that the new radiation was
    similar to the then recently discovered X-rays.
    However further research by Becquerel, Marie
    Curie, Pierre Curie, Ernest Rutherford and others
    discovered that radioactivity was significantly
    more complicated. Different types of decay can
    occur.

5
Different types of decay
  • By applying a magnet to radioactive material
    three distict types of radiation were observed.
    Alpha, Beta, and Gamma were the intial generic
    names. No one got around to changing the name,
    and so the names stuck.

6
Whats going on here???
  • Determine the charge of each of the three forms
    of decay
  • Which one is the MOST massive?

7
Alpha Decay
  • The nucleus emits a helium nucleus (an alpha
    particle)
  • Uranium alpha decays to Thorium
  • Generic equation

8
Alpha Decay
  • Why does this happen?
  • Alpha decay tends to take place when the nucleus
    grows too large.
  • Uranium is the largest element found in nature.
  • Lead-206 is the largest STABLE element

9
Vocab
  • The helium4 nucleus is referred to as an alpha
    particle.
  • Alpha decay is caused when a nuclide is too large.

10
Practice problem
  • Write the equation for when Radium 226 undergoes
    alpha decay.
  • Fill in the missing nuclide.

11
Beta decay
  • A neutron is converted into a proton and an
    electron. The electron is rocketed out of the
    nucleus with great speed.

12
Warning!!!
  • Do not think of a neutron as being made up of a
    proton and an electron! Also emitted in beta
    decay is a particle called an antineutrino.
    Wikipidia it if you want more information .
  • Neutron ? Proton Electron

13
Beta Decay
  • Why does this happen?
  • Beta decay tends to occur when there are too many
    neutrons.
  • If the neutronproton ratio is too HIGH beta
    decay may occur.

14
Vocab
  • An electron is referred to as an beta particle.
    It is sometimes indicate as below

15
Practice problem
  • Write the equation for the beta decay of
    Cobalt60.
  • Fill in the missing nuclide

16
Positron emission
  • The conversion of a proton into a neutron by the
    emission of a positron decreases the atomic
    number by 1
  • Generic equation

17
Electron capture
  • The nucleus captures an orbiting electron
  • A proton is converted into a neutron

18
Positron emission and electron capture
  • Look at the equations below
  • Note Both types of decay result in the same
    product... They both do the same thing

19
Positron emission and electron capture
  • Why does this happen?
  • Both occur when there are too many protons
  • When the neutronproton ration is too LOW

20
Nuclear stability
  • This graph is called the band of stability
  • You dont need to memorize this!!!

21
But whats happening INSIDE?
  • We havent talked about whats happening inside
    the nucleus yet.
  • There are protons in the nucleus.
  • Protons have positive charge
  • Positive charges repel one another
  • Why doesnt the nucleus explode?

22
Strong nuclear force
  • The strong nuclear force-
  • A full discussion of this topic is not
    appropriate at this stage in your education.
  • The SNF is the force that holds the nucleus
    together.
  • This force acts at VERY short distances
  • The presence of neutrons in the nucleus lends
    stability to the protons and helps hold the
    nucleus together.

If youre asked what holds the nucleus together
you should write, Strong nuclear force.
23
Nuclear binding energy
  • There is a repulsive force between the protons in
    the nucleus.
  • The SNF attracts all particle in the nucleus to
    each other. This attractive forces is equal and
    opposite to the repulsive force between the
    protons.
  • This attractive force requires energy, but where
    does this nuclear binding energy come from???

24
The mass defect
  • The mass defect is a little abstract.
  • From experiments we have calculated the exact
    mass of a free proton and a free neutron.
  • Strangely, the masses of a proton and a neutron
    are lower in the nucleus than when they are free.
  • WHY???

25
Emc2
  • Energy and mass are interchangeable

26
Mass defect explained
  • Einstein's famous equation Emc2 states that
    energy is equal to mass times the speed of light
    squared.
  • Thus, small amounts of mass can be converted into
    tremendous amounts of energy.
  • The lost mass is converted into the energy
    required to hold the nucleus together (the
    nuclear binding energy)

Mass defect Nuclear binding energy
27
Any Burning Questions?
28
The decay series
29
A potential test question
30
No more lecture
  • Now we need to balance nuclear equations

31
A brief lesson in statistics
  • AKA Avogadros number is huge

32
Basic statistics
  • Why is the world series of baseball a seven game
    series?
  • Why not just have a one game play off?
  • If you flip a coin once and it lands on heads,
    can you conclude that it will and on heads 100
    of the time?
  • Why not?

33
Intermediate statistics
  • If you roll a six-sided die 36 times and it lands
    on the number six seven times can you conclude
    that the probability of rolling a six is 7/36?
  • Why not?

34
Advanced statistics
  • If you flip a coin 1,000,000,000 times and it
    lands on heads 500,161,803 times, can you
    conclude that the probability of rolling heads is
    about 50?
  • Why?

35
Graduate statistics
  • If half of your sample of a whopping
    602,214,150,000,000,000,000,000 iodine-131 atoms
    decay in 8 days, can you conclude that the half
    life of iodine 131 is about 8 days?
  • Why?

36
Teacher statistics
  • For random events
  • As your basis set goes to infinity, your margin
    of error goes to zero
  • Avogadros number is so big, it give most (if not
    all) nuclear and chemical reactions a basis set
    that can be thought of as being infinite.
  • Therein lies the beauty of chemistry

37
Carbon Dating
38
The carbon-14carbon-12 ratio
  • Atomic mass of carbon is 12.0107g/mol
  • This means most carbon found in nature has a mass
    number of 12
  • A small percentage of carbon atoms have a mass
    number of 14
  • This is a good thing because

39
Carbon-14
  • Carbon-14 undergoes beta decay at a predictable
    rate.
  • The half-life of this reaction is 5730 years

40
How does it work?
  • All living creatures consume carbon.
  • Plants take in CO2 from the atmosphere and then
    we eat the plants.
  • Or we eat what ate the plants.
  • Or we consume the predator that devoured the
    herbivore that ate the plant.

41
This fits in perfectly with the
42
How does it work?
  • Once we die we cease to consume carbon.
  • Without the constant uptake of C-14 from the
    atmosphere any flesh or decaying plant materials
    C-14 level will steadily drop from the moment it
    stops consuming.
  • We then find it, measure the C-14 to C-12 ratio,
    and with a little mathWe know more or less how
    old it is.

43
Important!
  • We are constantly eating carbon that not too long
    ago came from the atmosphere.
  • Atmospheric carbon has a fixed C-14 to C-12
    ratio.
  • There is an important question that I hope one of
    you is thinking of right now

44
Why is this important?
  • Archeologists can find the ages of bones
  • What is paper made out of?
  • We can find the age of anything written on paper
  • Anything painted on canvas
  • Many dyes come from fresh plants
  • The uses go on and on

45
Sample problems
  • The half life of carbon-14 is 5730 years. A
    sample of bone that would contain 800 g of
    carbon-14 were it recently dead is found to
    contain only 50 g of carbon-14?
  • Use the equation below
  • time (half-life)( of half-lives)

46
Sample problems
  • The half life of thorium-234 is 24.5 days. How
    long will it take for an 800 g sample to decay
    down to only 50 g?
  • Use the equation below
  • time (half-life)( of half-lives)

47
Sample problems
  • The half-life of protactinium-234 is 1.14
    minutes. How many milligrams of protactinium-234
    remain after 5.70 minutes if you start with 2.0
    mg of the isotope?

48
Uses of Radioactive Material
  • Where do I even begin?

49
Carbon Dating
50
Medicinal
  • Radioactive Isotopes can be used as medicinal
    tracer element to pinpoint tumors and other
    bodily abnormalities

51
Agriculture
  • Radioactive Isotopes can be used as agricultural
    tracer elements as well. Scientist can use
    radioactively tagged elements to follow the
    flow of pesticides and fertilizers.

52
Nuclear Power
  • Pro Nuclear power has low green house gas
    emissions
  • Con Radioactive waste
  • Any one heard of a place called Chernobyl or
    Three Mile Island?

53
Weapons
  • Atomic weapons have been in use since the mid
    1940s
  • Not all uses of radioactive isotopes are
    beneficial

54
Vocabulary you need to know
  • Mass defect- difference between the sum of all
    protons and neutrons and the actual mass of the
    nucleus. Mass is converted into the binding
    energy of the nucleus.
  • Gamma rays-High energy electromagnetic radiation
    (photons)

55
Vocabulary you need to know
  • Parent nuclide-The nuclide before it has
    undergone a form of radioactive decay.
  • Daughter nuclide-The nuclide that results from
    after decay has taken place

56
Shielding
  • Shielding- What is required to absorb nearly all
    radiations from a specific type of radioactive
    source.
  • Alpha particles- Skin or a sheet of paper
  • Beta particles- Lead plate, glass
  • Gamma rays- Thick lead or cement, passes through
    nearly all material unless that material is quite
    thick

57
Nuclear Fission vs. Fusion
  • Fission- A large radioactive nuclide breaks down
    into a smaller daughter nuclide. Usually alpha
    decay.
  • Fusion- Small elements are forced to create
    larger nuclides. Can only take place in a
    particle accelerator, a star, or when bombarded
    by high velocity particles

58
AP Chemistry Problem
  • The half-life of cromium-55 is about 2.0 hours.
    The delivery of a sample of this isotope from the
    reactor to a certain laboratory requires 12
    hours. About what mass of such material should
    be shipped in order that 1.0 mg of cromium-55 is
    delivered to the laboratory?
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