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Isotopes and Nuclear Reactions
Island of Stability
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Isotopes A variation of an element, that differs by the number of neutrons. Protons CANNOT change – A proton is like an Atoms DNA, its what makes it an atom of a specific element Electrons are so small – their mass is negligible to the mass of an atom Neutrons are the only thing that can change – change the mass of the atom When an atom varies in the number of neutrons, its mass also varies – these are called isotopes
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Isotopic Notation How do we differentiate between different isotopes?
Isotopes can be written in a long format that uses the elements name and mass Carbon – 12 Carbon – 13 Carbon - 14 Isotopes can be written with symbols just like elements can:
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Practice with isotopic notation
Element Isotopic Symbol Mass Number Atomic Number Number of Protons Number of Electrons Number of Neutrons Carbon – 14 14 6 14-6= 8 Polonium – 210 210 84 210-84= 126 Aluminum - 27 27 13 27-13= 14
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Atomic Mass Recall what atomic mass is:
Average atomic mass is the mass of all the isotopes of an element combined It is the mass given on the periodic table It is calculated by taking the mass of each isotope of an element and multiplying each isotopes mass by its abundance then adding all the isotopes together. (% of mass 1)(mass 1) + (% of mass 2)(mass 2) + (% of mass 3)(mass 3)….. You would do this for each isotope of the element – some elements have many isotopes Polonium has 25 isotopes and all are radioactive
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Average Atomic Mass Problems:
Copper has two isotopes: 69.2% of all copper has a mass of 63 amu, while 30.8% of all copper has a mass of 65 AMU. What is copper’s average atomic mass?
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Nuclear Chemistry Radioactivity – the processes by which unstable nuclei achieve stability by releasing radiation Radiation – the penetrating rays and particles emitted by a radioactive source Radioactive Decay – the process in which unstable nuclei disintegrates Radioisotopes – an isotope that has an unstable nucleus and undergoes radioactive decay
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A reaction that results in a different nucleus
Nuclear Reactions A reaction that results in a different nucleus All reactions known up to this point, have not changed the nucleus Law of Conservation of Mass Nuclear reactions do not seem to follow this law.
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Fission and Fusion Reactions
Nuclear decay that results from the nucleus of an atom splitting in to smaller pieces Heavier atom becomes a lighter atom The is nuclear energy on Earth Requires little to no energy (usually) Results in: free floating neutrons and photons (energy) Nuclear reaction that results from two nuclei joining together to form one larger nucleus Does NOT occur on Earth If it did, it would solve our energy crisis Releases gamma radiation for every reaction This is what we could use for energy Requires too much energy to start the reaction Powers active stars
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Fission and Fusion Fission vs Fusion
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Radiation Rays and particles emitted by the radioactive material
3 types Alpha Beta gamma
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Alpha Radiation Alpha particles are made of 2 protons and 2 neutrons
Has a +2 charge The atomic mass decreases by 4 and the atomic # by 2 It is a VERY weak type of radiation Can be stopped by paper or clothing Limited to VERY large nuclei Ex: Heavy Metals
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Beta Radiation Changes a neutron to a proton, emits fast moving electrons from the nucleus -1 charge Does not affect mass but increases the atomic number by 1 Can be stopped by: aluminum foil, thin pieces of wood
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Gamma Radiation High energy radiation wave of electromagnetic radiation given off by a radioisotope Not a particle, but a wave of energy NO charge Released with alpha and beta radiation Does NOT change the mass or atomic number VERY hard to stop Can only be stopped by thick concrete or lead
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Homework Page 7 and 8 in your packets
We will complete page 9 together on Thursday – you may try it if you want
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