P3 – Radioactive Materials. Radioactive Elements Some elements emit ionising radiation all the time and are called radioactive Radioactive elements are.

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Presentation transcript:

P3 – Radioactive Materials

Radioactive Elements Some elements emit ionising radiation all the time and are called radioactive Radioactive elements are naturally found in the environment, emitting background radiation

The Atom Electrons, Protons, Neutrons and the Nucleus are all parts of an atom The Nucleus, made of Protons and Neutrons

Isotopes Every atom of any element has the same number of protons but the number of neutrons may differ The same element with different numbers of neutrons is called an isotope These 3 atoms are all isotopes of Hydrogen:

The Nucleus is the only thing involved in Radioactive Substances Radioactive Materials are unchanged by: – Chemical reactions (only electrons involved in these) – Changes of state (Solid, Liquid, Gas) – Crushing

3 Types of Radiation Alpha: – 2 Protons + 2 Neutrons Beta: – 1 Electron Gamma: – High energy wave

An unstable nucleus will emit radiation to become more a more stable nucleus

Half-Life Overtime, the Activity of Radioactive Sources Decrease Half-Life: The time it takes for the number of unstable atoms in a sample to halve. Carry out simple calculations

Ionising Radiation Ionising Radiation removes electrons from atoms creating Ions (Charged atoms). These can then take part in other chemical reactions

When ionising radiation strikes living cells these may be killed or may become cancerous

Helpful Ionising Radiation Ionising Radiation can be used to: – sterilise surgical instruments – sterilise food – treat cancer

Electricity Electricity is a secondary energy source. This means that we get electricity from the conversion of other sources of energy, such as coal, nuclear, wind or solar energy. These are called primary sources.

Electricity = Convenient Electricity is convenient because it is easily transmitted over distances and can be used in many ways

Making Electricity 1.Coal is burnt to heat water to make steam 2.The steam turns the turbine 3.Turbine turns a generator which produces electricity 4.Electricity goes to the transformers to produce the correct voltage

Efficiency Light bulbs are only 10% efficient. 90% of the energy provided to them is lost as heat You need to know how to read these diagrams

Renewable Energy Recall two examples: 1.Solar panels 2.Wind turbines 3.Geothermal 4.Hydroelectricity

Power stations which burn carbon fuels (fossil fuels) produce carbon dioxide

Nuclear Fuel / Nuclear Fission Changes in the nucleus creates lots of energy Nuclear Fission: a neutron splits a large and unstable nucleus (Uranium) into two smaller parts, roughly equal in size, releasing more neutrons

Nuclear Energy The amount of energy contained in nuclear fuel is millions of times the amount of energy contained in a similar mass of chemical fuel such as coal, making nuclear fission a very tempting source of energy.

Nuclear Fission creates a chain reaction and these can be dangerous unless they are controlled

Controlling Fission Fission heats the coolant which is used for steam Control rods absorb neutrons These can be moved up and down to control the amount of neutrons escaping the fuel rods

Radioactive Waste Is categorised into 3 parts and this relates to it’s disposal methods – high – intermediate – low