Actinium series

• Resources Structure
• Key Stage 4
• Physics
• XVIII. Nuclear physics
• 99. Nuclear radiation

• Exam Specifications
• Key Stage 4
• AQA GCSE Science A (4461) Physics
• II. Physics 1b - Radiation and the Universe
• 2. What are the uses and dangers of emissions from radioactive substances?
• to evaluate the possible hazards associated with the use of different types of nuclear radiation
• to evaluate measures that can be taken to reduce exposure to nuclear radiations
• to evaluate the appropriateness of radioactive sources for particular uses, including as tracers, in terms of the type(s) of radiation emitted and their half-lives.
• The basic structure of an atom is a small central nucleus composed of protons and neutrons surrounded by electrons.
• The atoms of an element always have the same number of protons, but have a different number of neutrons for each isotope.
• Some substances give out radiation from the nuclei of their atoms all the time, whatever is done to them. These substances are said to be radioactive.
• Identification of an alpha particle as a helium nucleus, a beta particle as an electron from the nucleus and gamma radiation as electromagnetic radiation.
• Properties of the alpha, beta and gamma radiations limited to their relative ionising power, their penetration through materials and their range in air.
• Alpha and beta radiations are deflected by both electric and magnetic fields but gamma radiation is not.
• The uses of and the dangers associated with each type of nuclear radiation.
• The half-life of a radioactive isotope is defined as the time it takes for the number of nuclei of the isotope in a sample to halve or the time it takes for the count rate from a sample containing the isotope to fall to half its initial level.
• AQA GCSE Physics (4451)
• IV. Physics 1b
• 14. What are the uses and hazards of the waves that form the electromagnetic spectrum?
• Different wavelengths of electromagnetic radiation are reflected, absorbed or transmitted differently by different substances and types of surface.
• Different wavelengths of electromagnetic radiation have different effects on living cells. These effects depend on the type of radiation and the size of the dose.
• 15. What are the uses and dangers of emissions from radioactive substances?
• to evaluate the possible hazards associated with the use of different types of nuclear radiation
• Some substances give out radiation from the nuclei of their atoms all the time, whatever is done to them. These substances are said to be radioactive.
• Identification of an alpha particle as a helium nucleus, a beta particle as an electron from the nucleus and gamma radiation as electromagnetic radiation.
• Properties of the alpha, beta and gamma radiations limited to their relative ionising power, their penetration through materials and their range in air.
• Alpha and beta radiations are deflected by both electric and magnetic fields but gamma radiation is not.
• V. Physics 2
• 25. What happens to radioactive substances when they decay?
• to explain how the Rutherford and Marsden scattering experiment led to the ‘plum pudding’ model of the atom being replaced by the nuclear model.
• The relative masses and relative electric charges of protons, neutrons and electrons.
• In an atom the number of electrons is equal to the number of protons in the nucleus. The atom has no net electrical charge.
• Atoms may lose or gain electrons to form charged particles called ions.
• All atoms of a particular element have the same number of protons.
• Atoms of different elements have different numbers of protons.
• Atoms of the same element which have different numbers of neutrons are called isotopes.
• The total number of protons in an atom is called its atomic number.
• The total number of protons and neutrons in an atom is called its mass number.
• The effect of alpha and beta decay on radioactive nuclei.
• The origins of background radiation.
• AQA GCSE Physics (4451)
• I. Physics 2
• 9. What happens to radioactive substances when they decay?
• In an atom the number of electrons is equal to the number of protons in the nucleus. The atom has no net electrical charge.
• Atoms may lose or gain electrons to form charged particles called ions.
• All atoms of a particular element have the same number of proto
• Atoms of different elements have different numbers of protons.
• Atoms of the same element which have different numbers of neutrons are called isotopes.
• The total number of protons in an atom is called its atomic number.
• The total number of protons and neutrons in an atom is called its mass number.
• The effect of alpha and beta decay on radioactive nuclei.
• The origins of background radiation.
• to explain how the Rutherford and Marsden scattering experiment led to the ‘plum pudding’ model of the atom being replaced by the nuclear model.
• The relative masses and relative electric charges of protons, neutrons and electrons.

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