Radioactivity Ch 10
Radioactivity is the process in which an unstable atomic nucleus emits charged particles & energy Any atom containing an unstable nucleus is called a radioactive isotope or radioisotope
How is the Atom Unstable? The nuclear “glue” that holds the nucleus together sometimes isn’t strong enough. Over time the atom “drops” some of it’s subatomic particles …called radioactive decay! 3
New Way of Writing Nuclides & Isotopes 3919 K ; 4019 K Superscript is the mass number Subscript is the atomic number 146C ; 126 C
Isotopes have the same number of p+, different number of no Another way to show an isotope is to have the mass number follow the name of the element (Carbon-14 or C-14)
Types of Nuclear Radiation Alpha 2.Beta 3. Gamma
Alpha Decay Alpha particle—a positively charged particle made up of two p+ & two no the least penetrating can be stopped by a sheet of paper
Alpha Decay An alpha particle looks like a helium atom (42He) mass reduces by 4 atomic # reduces by 2
Examples: 23892 U 20984 Po
A beta particle is an e- emitted by an unstable nucleus Beta Decay A beta particle is an e- emitted by an unstable nucleus can be stopped by a thin sheet of metal such as aluminum
Beta Decay A beta particle is written 0-1 e mass remains the same & the atomic # increases by one
Examples: 21482 Pb 21884 Po
Gamma decay A gamma ray is a penetrating ray of energy emitted by an unstable nucleus Gamma rays are energy waves that travel through space at the speed of light
Gamma decay atomic # and mass remain the same, but the energy of nucleus decreases Gamma rays can be stopped by several centimeters of lead or by several meters of concrete
Thanks Cambridge Physics Outlet for amazing graphics!
STAR Questions U-238 loses 4 total subatomic particles, 2 being protons. What elements are formed? Thorium and Helium What type of decay has it undergone? Alpha decay What is the most penetrating decay? Gamma rays 16
Background radiation is nuclear radiation that occurs naturally in the environment (levels are low enough to be safe) Radioisotopes in the air, water, rocks, plants, & animals all contribute
Background Radiation Cosmic rays (streams of charged particles) from outer space that collide with the Earth’s atmosphere also contribute When nuclear radiation exceeds background levels, cells in your body can mutate
Detecting Radiation Devices used to detect radiation include Geiger counters & film badges
RATES OF NUCLEAR DECAY A half-life is the time required for one half of a sample of radioactive sample of a radioisotope to decay Unlike chemical reactions, nuclear decay rates are constant regardless of temperature, pressure or surface area
C-14 has a half life of 5730 years. What fraction of a sample will be remaining after 1 half life? After 2 half lives? 22
C-14 has a half life of 5730 years. If you have a sample of 50 grams. How much of the sample will be remaining after 1 half life? After 2 half lives? 23
RATES OF NUCLEAR DECAY Transmutation is the conversion of atoms of one element to atoms of another Transuranium elements are elements with atomic numbers higher than 92 (Uranium) A quark is a subatomic particle theorized to be among the basic units of matter
FISSION AND FUSION Fission is the splitting of an atomic nucleus into two smaller parts Fusion is a process in which the nuclei of two atoms combine to form a larger nucleus 25
Fission A chain reaction is a chain of fission reactions triggered by neutrons released during the fission of a nucleus About 20% of the electricity in the US comes from fission reactions
Fission A tremendous amount of energy is produced during a fission reaction
Fission Advantages: is the lack of air pollution. Harris plant, near Raleigh Advantages: is the lack of air pollution. Disadvantages: include the risk of exposure & radioactive waste Lake Harris
Not in my backyard…
Then sealed and transported by way of trucks and trains for more permanent storage. Low-level wastes will stay above ground until they become “stable”. 32
If high-level, the wastes are stored deep underground, where they wait for hundreds to thousands of years to become “stable”. 33
Fusion release huge amounts of energy occur in the sun and stars (plasma)
Fusion We do not use fusion reactions for energy b/c of the extremely high temperatures needed to start the reaction & because the plasma would need to be contained.
THREE MILE ISLAND Three Mile Island power station is near Harrisburg, Pennsylvania In 1979 at Three Mile Island nuclear power plant a cooling malfunction caused part of the core to melt in the # 2 reactor. The TMI-2 reactor was destroyed. Some radioactive gas was released a couple of days after the accident, but not enough to cause any dose above background levels to local residents. There were no injuries or adverse health effects from the Three Mile Island accident.
CHERNOBYL The Chernobyl accident in 1986 was the result of a flawed reactor design that was operated with inadequately trained personnel & without proper regard for safety. The resulting steam explosion & fire released at least five percent of the radioactive reactor core into the atmosphere and downwind. 28 people died within four months from radiation or thermal burns, 19 have subsequently died, & there have been around nine deaths from thyroid cancer apparently due to the accident: total 56 fatalities as of 2004. An authoritative UN report in 2000 concluded that there is no scientific evidence of any significant radiation-related health effects to most people exposed. This was confirmed in a very thorough 2005-06 study.
Examples Iodine-131 has a half-life of 8.07 days. What fraction of a sample of iodine-131 is left unchanged after 16.14 days?
Examples The radioactive isotope Ni-63 has a half-life of 100 yrs. How much of a 10g sample remains after 300 yrs?
Examples How long will it take a sample of Po-194 to decay to 1/8 of its original amount, if Po-194 has a half life of 0.7 seconds?
Examples A sample of Cl-38 is observed to decay to 25% of its original amount in 74.4 min. What is the half-life of Cl-38? sorry…no time for Star cards this time :o)