nuclear chemistry targets: 1.i can utilize appropriate scientific vocabulary to explain scientific...
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Nuclear Chemistry
Targets:1.I CAN Utilize appropriate scientific vocabulary to explain scientific concepts.2.I CAN Distinguish between fission and fusion and where each process may be used.3.I CAN Construct balanced nuclear equations (alpha, beta, gamma, neutron, etc.).4.I CAN Complete a decay series for a given element. 5.I CAN Perform calculations to determine how much of a radioactive substance will remain based on the half-life and time elapsed.6.I CAN Perform calculations to determine how much time has elapsed based on starting and ending amounts in a half-life problem.
• Changes in matter originating in the nucleus of an atom
• All atoms have-
• p+ and n0 (nucleons)
• p+ number is the atomic number = Z
• p+ + n0 = mass number = A
The Nucleus
• The nucleus is comprised of the two nucleons (a nuclear particle) protons and neutrons.
• The number of protons is the atomic number.• The number of protons and neutrons together
is the mass of the atom.• Nuclide, is the nucleus of an atom having a
specific atomic number and atomic mass #
Isotopes
• Elements with the same atomic #, but different mass # due to gaining or losing of neutrons
• Ex: There are three naturally occurring isotopes of uranium:– Uranium-234– Uranium-235– Uranium-238
Radioactivity
• It is not uncommon for some nuclides of an element to be unstable, or radioactive.
• We refer to these as radionuclides• Radionuclides are unstable and spontaneously
emit particles and electromagnetic radiation (EM) • Radioisotopes- atoms containing these
radionuclides• Transmutation- process by which one element is
converted to another element by the spontaneous emission of radiation
Large Nuclei
• Nucleus is held together by strong force
• Large nuclei tend to be unstable because the force is not strong enough to hold it together
• These nuclei break apart and decay
• All nuclei with 83 or more protons are radioactive
• Almost all elements with more than 92 protons don’t exist naturally
Neutron-Proton Ratios• Any element with more than
one proton (i.e., anything but hydrogen) will have repulsions between the protons in the nucleus.
• A strong nuclear force helps keep the nucleus together
• Neutrons play a key role stabilizing the nucleus.
• Therefore, the ratio of neutrons to protons is an important factor.
Neutron-Proton Ratios
For smaller nuclei (Z 20) stable nuclei have a neutron-to-proton ratio close to 1:1.
Neutron-Proton Ratios
As nuclei get larger, it takes a greater number of neutrons to stabilize the nucleus.
Stable Nuclei
• Nuclei above this belt have too many neutrons.
• They tend to decay by emitting beta particles.
Stable Nuclei
• Nuclei below the belt have too many protons.
• They tend to become more stable by positron emission or electron capture.
What is Radioactivity?
• When an unstable nucleus emits one or more particles or energy
• When these particles are emitted, the element changes to another isotope or to a different element
• Nuclear radiation refers to radiation resulting from nuclear changes
Alpha Particles
• Symbol is
• Actually particles made of 2 p+ and 2 n0, same as a He nucleus
• +2 charge, most massive of all nuclear radiation, mass = 4 amu
• Do not travel far, can be stopped by a sheet of paper
• Can be very dangerous inside human body – illness and disease
Beta Particles
• Symbol is Greek letter, beta (β)
• High speed negatively charged particles that come from the nucleus – hmmm…
• Neutron (neutral) actually decays to form a p+ and an e-, e- is ejected from nucleus
• Travel farther than α, but can be stopped by 3 mm of Al, or 10 mm of wood
• Can cause damage inside cells
Gamma rays
• Gamma Radiation, γ• Not made of matter, no charge• Waves of electromagnetic energy (photons)• Usually emitted from nucleus when alpha
or beta decay occurs• A nucleus de-excites by emitting a high
energy gamma ray photon• High energy, can be stopped by 60 cm of Al
or 7 cm of Pb• Cause less damage than alpha because it
has no charge
Nuclear Decay
• When unstable nuclei emit alpha or beta particles, what changes?
– Number of protons or neutrons– New element or new atomic mass
Change During Alpha Decay
• Nucleus gives up 2 p+ and 2 n0
• All mass numbers add up, all atomic numbers add up
Change During Beta Decay
• Neutron is changed to a proton and an electron and emitted
• Increases atomic number due to conversion of a neutron to a proton and an electron
• So neutron is lost and proton is gained
Gamma Emission
Loss of a -ray (high-energy radiation that almost always accompanies the loss of a nuclear particle)
238 U → 238Th + 4He + 0 (gamma ray)
92 90 2
00
Decay Rates
• Half-life = the time in which half a radioactive substance decays
• After 1 half-life, half of the substance is unchanged
• After 2 half-lives, ¼ of the substance is unchanged
• Half-life table on p. 226
Half-Life
• Measure how quickly a substance decays• Can be anywhere between nanoseconds
to billions of years, depending on nuclear stability
• C-14 is used to find the age of relatively recent materials
• C-14 is taken in in tiny fractions while alive in some molecules of CO2
• C-14 goes through beta decay, so ratio is compared in living and nonliving things
Half-Life Example
• The half-life of iodine-131 is 8 days.
• If you start with 36 grams of I-131, how much will be left after 24 days?
• 36 g 1 half-life 8 days 18 g
• 18 g 2 half-lives 16 days 9 g
• 9 g 3 half-lives 24 days 4.5 g