11 low relevance results shown for 'Physics'.
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Forces and Motion - The motion of objects can be described and predicted using the laws of physics ACSPH016 Year 11 Thermal nuclear and electrical physics
Heating processes - Heat transfer occurs between and within systems by conduction, convection and/or radiation ACSPH020 Year 11 Thermal nuclear and electrical physics
Heating processes - Provided a substance does not change state, its temperature change is proportional to the amount of energy added to or removed from the substance; the constant of proportionality describes the heat capacity of the substance ACSPH022 Year 11 Thermal nuclear and electrical physics
Heating processes - Two systems in contact transfer energy between particles so that eventually the systems reach the same temperature; that is, they are in thermal equilibrium ACSPH028 Year 11 Thermal nuclear and electrical physics
Ionising radiation and nuclear reactions - Some nuclides are unstable and spontaneously decay, emitting alpha, beta and/or gamma radiation over time until they become stable nuclides ACSPH029 Year 11 Thermal nuclear and electrical physics
Ionising radiation and nuclear reactions - Each species of radionuclide has a specific halflife ACSPH030 Year 11 Thermal nuclear and electrical physics
Ionising radiation and nuclear reactions - Alpha, beta and gamma radiation have sufficient energy to ionise atoms ACSPH039 Year 11 Thermal nuclear and electrical physics
Electrical circuits - Energy is conserved in the energy transfers and transformations that occur in an electrical circuit ACSPH040 Year 11 Thermal nuclear and electrical physics
Electrical circuits - The energy available to charges moving in an electrical circuit is measured using electric potential difference, which is defined as the change in potential energy per unit charge between two defined points in the circuit ACSPH041 Year 11 Thermal nuclear and electrical physics
Electrical circuits - Energy is required to separate positive and negative charge carriers; charge separation produces an electrical potential difference that can be used to drive current in circuits ACSPH042 Year 11 Thermal nuclear and electrical physics
Electrical circuits - Power is the rate at which energy is transformed by a circuit component; power enables quantitative analysis of energy transformations in the circuit ACSPH043 Year 11 Thermal nuclear and electrical physics
Electrical circuits - Resistance for ohmic and nonohmic components is defined as the ratio of potential difference across the component to the current in the component ACSPH044 Year 11 Thermal nuclear and electrical physics
Electrical circuits - Circuit analysis and design involve calculation of the potential difference across, the current in, and the power supplied to, components in series, parallel and series/parallel circuits ACSPH136 Year 12 Revolutions in modern physics
Quantum theory - On the atomic level, electromagnetic radiation is emitted or absorbed in discrete packets called photons; the energy of a photon is proportional to its frequency; and the constant of proportionality, Planck’s constant, can be determined experimentally (fo ACSPH137 Year 12 Revolutions in modern physics
Quantum theory - A wide range of phenomena, including black body radiation and the photoelectric effect, are explained using the concept of light quanta ACSPH138 Year 12 Revolutions in modern physics
Quantum theory - Atoms of an element emit and absorb specific wavelengths of light that are unique to that element; this is the basis of spectral analysis ACSPH139 Year 12 Revolutions in modern physics
Quantum theory - The Bohr model of the hydrogen atom integrates light quanta and atomic energy states to explain the specific wavelengths in the hydrogen spectrum and in the spectra of other simple atoms; the Bohr model enables line spectra to be correlated with atomic en ACSPH021 Year 11 Thermal nuclear and electrical physics
Heating processes - Change of state involves internal energy changes to form or break bonds between atoms or molecules; latent heat is the energy required to be added to or removed from a system to change the state of the system ACSPH140 Year 12 Revolutions in modern physics
Quantum theory - On the atomic level, energy and matter exhibit the characteristics of both waves and particles ACSPH135 Year 12 Revolutions in modern physics
Quantum theory - Atomic phenomena and the interaction of light with matter indicate that states of matter and energy are quantised into discrete values
11 low relevance results shown for 'Physics'.
Showing low relevance matches only. Return to normal search results
Curriculum resources related to 'Physics'
ACSSU229 Year 10 Physical SciencesForces and Motion - The motion of objects can be described and predicted using the laws of physics ACSPH016 Year 11 Thermal nuclear and electrical physics
Heating processes - Heat transfer occurs between and within systems by conduction, convection and/or radiation ACSPH020 Year 11 Thermal nuclear and electrical physics
Heating processes - Provided a substance does not change state, its temperature change is proportional to the amount of energy added to or removed from the substance; the constant of proportionality describes the heat capacity of the substance ACSPH022 Year 11 Thermal nuclear and electrical physics
Heating processes - Two systems in contact transfer energy between particles so that eventually the systems reach the same temperature; that is, they are in thermal equilibrium ACSPH028 Year 11 Thermal nuclear and electrical physics
Ionising radiation and nuclear reactions - Some nuclides are unstable and spontaneously decay, emitting alpha, beta and/or gamma radiation over time until they become stable nuclides ACSPH029 Year 11 Thermal nuclear and electrical physics
Ionising radiation and nuclear reactions - Each species of radionuclide has a specific halflife ACSPH030 Year 11 Thermal nuclear and electrical physics
Ionising radiation and nuclear reactions - Alpha, beta and gamma radiation have sufficient energy to ionise atoms ACSPH039 Year 11 Thermal nuclear and electrical physics
Electrical circuits - Energy is conserved in the energy transfers and transformations that occur in an electrical circuit ACSPH040 Year 11 Thermal nuclear and electrical physics
Electrical circuits - The energy available to charges moving in an electrical circuit is measured using electric potential difference, which is defined as the change in potential energy per unit charge between two defined points in the circuit ACSPH041 Year 11 Thermal nuclear and electrical physics
Electrical circuits - Energy is required to separate positive and negative charge carriers; charge separation produces an electrical potential difference that can be used to drive current in circuits ACSPH042 Year 11 Thermal nuclear and electrical physics
Electrical circuits - Power is the rate at which energy is transformed by a circuit component; power enables quantitative analysis of energy transformations in the circuit ACSPH043 Year 11 Thermal nuclear and electrical physics
Electrical circuits - Resistance for ohmic and nonohmic components is defined as the ratio of potential difference across the component to the current in the component ACSPH044 Year 11 Thermal nuclear and electrical physics
Electrical circuits - Circuit analysis and design involve calculation of the potential difference across, the current in, and the power supplied to, components in series, parallel and series/parallel circuits ACSPH136 Year 12 Revolutions in modern physics
Quantum theory - On the atomic level, electromagnetic radiation is emitted or absorbed in discrete packets called photons; the energy of a photon is proportional to its frequency; and the constant of proportionality, Planck’s constant, can be determined experimentally (fo ACSPH137 Year 12 Revolutions in modern physics
Quantum theory - A wide range of phenomena, including black body radiation and the photoelectric effect, are explained using the concept of light quanta ACSPH138 Year 12 Revolutions in modern physics
Quantum theory - Atoms of an element emit and absorb specific wavelengths of light that are unique to that element; this is the basis of spectral analysis ACSPH139 Year 12 Revolutions in modern physics
Quantum theory - The Bohr model of the hydrogen atom integrates light quanta and atomic energy states to explain the specific wavelengths in the hydrogen spectrum and in the spectra of other simple atoms; the Bohr model enables line spectra to be correlated with atomic en ACSPH021 Year 11 Thermal nuclear and electrical physics
Heating processes - Change of state involves internal energy changes to form or break bonds between atoms or molecules; latent heat is the energy required to be added to or removed from a system to change the state of the system ACSPH140 Year 12 Revolutions in modern physics
Quantum theory - On the atomic level, energy and matter exhibit the characteristics of both waves and particles ACSPH135 Year 12 Revolutions in modern physics
Quantum theory - Atomic phenomena and the interaction of light with matter indicate that states of matter and energy are quantised into discrete values
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11 low relevance results shown for 'Physics'.
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