Below are included some general information and resources which teachers may find useful in expanding parts of this topic.
It is possible to arrange student tours of ANSTO’s facilities on the southern edge of Sydney.
Details are available on ANSTO’s website.
ANSTO has a number of publications which may prove useful in both augmenting lesson planning and informing teachers and students about nuclear science and technology. These include:
| Date | Event |
| c.460–c.370 BC | Greek philosopher Democritus suggests all matter is made from atoms, which are indivisible. |
| 1896 | French scientist Henri Becquerel discovers radioactivity when he notices that an unexposed photographic plate becomes fogged when left next to uranium oxide. |
| late 19th C | New Zealander Ernest Rutherford identifies and characterises three types of radioactivity: alpha, beta and gamma. |
| 1898 | Marie Curie (1867–1934) discovers radium and coins the term ‘radioactivity’. |
| 1905 | Albert Einstein publishes the equation that links matter, light and energy, E = mc² |
| 1917 | Ernest Rutherford splits the atom (while working at Cavendish Laboratory in Cambridge, England). This undermines the belief that atoms are the most fundamental (and indivisible) units of matter, and drives the search for a new or extended theory of matter. |
| 1920s | Max Plank and Albert Einstein achieve a major revolution in scientific theory through the development of quantum theory. This replaces (or extends) Newtonian physics and provides a framework for understanding subatomic phenomena. Einstein proposes the particle theory of light. Werner Karl Heisenberg and Erwin Schrödinger develop powerful maths to explain the nuclear behaviours observed by Neils Bohr and Ernest Rutherford. Protons, electrons and (in the 1930s) neutrons are discovered and characterised. |
| 1925 | Women workers in a factory producing luminescent (and radioactive) paint become ill with radiation sickness. Dangers of radioactivity begin to be understood. |
| 1930 | Medical use of radium for arthritis, cancer and other diseases discontinued. |
| 1932 | Cyclotron is invented (first medical cyclotron: 1939). |
| 1934 | Marie Curie dies of cancer. |
| 1935 | Rutherford suggests that his discovery that atoms could be split would have ‘no practical implications’. |
| 1936 | Radioisotopes are first used as tracers in medicine. |
| 1939–45 | The Manhattan Project to develop nuclear weapons is run by the USA with support from Britain and Canada. |
| 1945 | Nuclear bombs were dropped on the Japanese cities of Hiroshima and Nagasaki by the USA. |
| 1948 | Major uranium deposits are found at Rum Jungle, NT, Australia. |
| 1949 | The Soviet Union explode their first atomic warhead. Beginning of cold-war fears of a nuclear holocaust caused by a war between the USA and USSR. Tension peaks during Cuban missile crisis of 1962, then begins to diminish with the signing of the Nuclear Test Ban Treaty in 1963 and the Strategic Arms Limitation Talks (SALT) Agreement in 1972. Cold war ends with the collapse of the USSR in 1991. |
| 1949 | Technique of carbon-14 dating is developed by Willard Libby. |
| 1951 | UK approaches Robert Gordon Menzies, Prime Minister (PM) of Australia to propose testing new British nuclear weapons in Australia. Testing commences on Montevideo Island (off WA), then moves to Maralinga and Emu (SA). Testing had finished by 1963. ANSTO was commissioned to study the test site in 1987. Australia also bought into the development of a British nuclear-capable missile, which was tested in Australia, but never realised. |
| 1952 | USA and USSR both develop the H-bomb. |
| 1953 | US President Eisenhower addresses UN conference, suggests turning swords into ploughshares in ‘Atoms for Peace’ program. |
| 1953 | Atomic Energy Act (Australia)
Australian Atomic Energy Commission (AAEC) established.
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| 1956 | UK becomes first nation to use atomic energy in the national electricity grid. |
| 1957 | UK develops H-bomb. |
| 1957 | Large scale UK protests demanding nuclear disarmament: famous march from London to Aldermaston. |
| 1957 | The founding of the International Atomic Energy Agency. |
| 1958 | Australia's only nuclear reactor (High Flux Australian Reactor: HIFAR) ‘goes critical’ (starts up) on Australia Day. Full operation begins 1960. |
| 1960 | HIFAR begins radioisotope production. |
| 1960 | France detonates its first atomic bomb. |
| 1961 | A small second Australian nuclear reactor ‘Moata’ begins operation. It was shut down in 1995. |
| 1961 | AAEC commissions its first particle accelerator: the 3 MeV ‘Van de Graaff’. |
| 1962 | The Cuban missile crisis. The world gets perhaps the closest it has ever been to nuclear war, when the USA stares down the USSR to force removal of nuclear-capable missiles from sites in Cuba. |
| 1963 | Partial Test Ban Treaty (bans atmospheric but not underground tests). The USA, UK and USSR agree to cease atmospheric testing, but underground testing continues. France continues atmospheric testing in French Polynesia. |
| 1964 | China detonates its first atomic bomb. |
| 1965 | The film ‘The War Game’ is produced in the UK, but is banned and not shown for 20 years. |
| 1967 | China develops the H-bomb. |
| 1968 | Nuclear Non-Proliferation Treaty (NPT) is signed by about 150 countries, including the USA, USSR, UK, and Australia (in 1973). |
| 1968 | France develops the H-bomb. |
| 1969 | Australian PM John Gorton refuses to sign NPT. The new Jervis Bay reactor is approved the same year. |
| 1971 | Greenpeace is established, and begins campaigning against the dumping of radioactive waste, nuclear power generation and nuclear weapons, and other aspects of the nuclear fuel cycle. |
| 1971 | PM William McMahon abandons the Jervis Bay reactor development. |
| 1973 | PM Gough Whitlam ratifies NPT. By 1980s, Australia became a world leader in the cause for nuclear disarmament. |
| 1974 | India (after refusing to sign the NPT) explodes its first nuclear device, following earlier supply by Canada of a nuclear research reactor. |
| 1978 | Demonstration projects begin with Australian invention ‘Synroc’, resulting from ANSTO/Australian National University joint venture. |
| 1979 | Commonwealth and State and Territory governments begin negotiations for a national radioactive waste repository. |
| 1979 | There is an accident at Three Mile Island nuclear reactor in Pennsylvania, USA. |
| Early 1980s | Strategic Arms Reduction Talks commit the USA and USSR to reducing their arsenals by about one-third each by 2003. |
| 1984 | Technetium-99 ‘cow’ is invented in Australia. This generates the medically important isotope technetium-99m, which has a half-life of only 6 hours, allowing bulk sources of technetium-99 to be produced and supplied around the country and overseas. |
| 1985 | French secret agents blow up Greenpeace’s ship Rainbow Warrior in New Zealand, after they protested against French nuclear testing in the Pacific. The secret agents are caught but extradited back to France. |
| 1985 | HIFAR begins irradiating silicon for Japanese superconductor industry: a good and expanding money earner. |
| 1986 | A serious fire and explosion at Chernobyl in the USSR (now the Ukraine) releases large amounts of radioactive materials into the environment, reaching as far away as the UK. |
| 1987 | AAEC becomes Australia Nuclear Science and Technology Organisation (ANSTO). The Act which established AAEC is repealed, and replaced by the ANSTO Act. |
| 1987 | USSR–US sign an arms reduction treaty. |
| 1991 | Collapse of USSR. Four former soviet states end up with nuclear weapons: Russia, Ukraine, Kazakhstan and Belarus. The last three pledge to return their weapons to Russia and do so. |
| 1991 | ANSTO's linear accelerator, the Australian National Tandem Accelerator for Applied Research (ANTARES), begins operation. Specialises in isotope analysis, including carbon dating. |
| 1992 | ANSTO and Royal Prince Alfred Hospital (Sydney) open the National Medical Cyclotron for the production of proton-rich radioisotopes. The NMC is right next to the hospital in Camperdown, so that radioisotopes with short half-lives can be administered within minutes of production. |
| 1992 | ANSTO contracted to assist rehabilitation of contaminated sites in East Germany. This builds on earlier experience in the UK. |
| 1994–5 | ANSTO's Board defines its Mission as to 'support industrial competitiveness and innovation through technology transfer; and, maintain a high quality nuclear science base, and enable academic institutions and other science organisations to perform research by providing access to unique facilities and expertise'. |
| Mid 1990s | South Africa becomes the only country to completely dismantle its nuclear arms. |
| 2002 | ANSTO signs contract with Argentinean company to build Australia's replacement research reactor (RRR). The Government indicates it has budgeted $A286.4 million (1997). |
| 2006 | Australia's only nuclear reactor – the HIFAR at Lucas Heights – is due to be replaced by the new RRR. |
Teachers may wish to use historical documents for students to interpret.
Below is a copy of the letter warning US President Roosevelt in 1939 of the possibility of nuclear weapons. It was drafted by Hungarian scientist Leo Szilard, signed by Albert Einstein, and sent to the President less than a month before the outbreak of World War II in Europe.
This next document illustrates the surprise of at least one member of the nuclear industry at emerging public ambivalence over nuclear technology.
