Nuclear Chemistry
Chemistry I Mrs. Ragsdale 25.1 Nuclear Radiation Chemistry I Mrs. Ragsdale
Nuclear Radiation Certain materials are considered “radioactive” because they give off penetrating rays and particles Nuclear radiation = penetrating rays emitted by nuclear reactions
Chemical vs Nuclear Reactions Chemical Reactions - atoms gain, lose or share electrons in order to become stable Nuclear reactions – the nuclei of unstable isotopes (called radioisotopes) become stable by emitting large amounts of energy. This allows them to undergo changes and become stable. Unaffected by catalysts, changes in temperature, or pressure Chemical Reactions Nuclear Reactions
3 Main Types of Radiation Alpha (α) Beta (β) Gamma (γ)
Alpha Radiation α When a radioactive source emits a helium atom Consists of two protons and two neutrons Has a double positive charge Uranium - 238 238 = 146 neutrons : 92 protons After alpha decay 144 neutrons : 90 protons Becomes Thorium 234
Beta Radiation β Beta radiation occurs when an atom either has too many protons or too many neutrons in is nucleus An electron results from the breaking apart of a neutron in an atom Discovered by Ernest Rutherford (remember the gold foil guy?)
Gamma Radiation High energy photons emitted by radioisotopes Gamma Radiation is usually emitted whenever Alpha or Beta radiation is emitted
Radiation Penetration
Radiation Penetration Gamma radiation penetrates the most through materials Can only be stopped by several feet of lead
Nuclear Decay Radiation – giving off particles and energy Nuclear Decay – when a isotope nucleus “decays” by giving off neutrons The point of nuclear decay is to return a radioactive isotope to a stable configuration
Band of Stability
Transmutation Converting an atom of one element into an atom of another element. Occurs by radioactive decay!
Half-Life The time required for one-half of the nuclei of a radioisotope sample to decay to products
Calculating Half-Lives Manganese-56 is a beta emitter with a half life of 2.6 h. What is the mass of manganese-56 in a 1.0 mg sample of the isotope at the end of 10.4 h?
Calculating Half-Lives A sample of thorium-234 has a half life of 25 days. What portion of a 50g sample will remain after 100 days?
25.3 Fission and Fusion of Atomic Nuclei Chemistry I Mrs. Ragsdale
Nuclear Fission Splitting a nucleus into smaller fragments by bombarding an isotope with neutrons. This can lead to a chain reaction of neutrons bombarding the nuclei of nearby atoms.
Nuclear Reactors Use controlled fission to produce heat (useful energy) Some form of cooling liquid removes the heat and uses it to create steam The steam turns a turbine to generate electrical energy
Nuclear Waste – The Major Problem with Nuclear Energy Water is used to cool spent rods and act as a radiation shield Once the spent fuel rods are removed from the nuclear reactor, they continue to produce heat for years later Problem! It is cheaper to mine more uranium than to fix and reuse these spent rods So what do we do? Build up nuclear waste! Most power plants have been forced to create off- site nuclear waste storage facilities.
Nuclear Fusion Nuclei are combined to form a nucleus of greater mass Extremely high energy!!
Fusion Reactors – Energy of the Future? Major Advantages Able to use abundant sources of fuel Will NOT leak dangerous radiation Produce SIGNIFICANTLY less radioactive waste Reactors are in the experimental phase around the world
Taylor Wilson 14 year old creates a nuclear fusion reactor….in his parent’s garage! http://www.ted.com/talks/taylor_wilson_yup_ i_built_a_nuclear_fusion_reactor