230 results found for 'Model'. Prev |1|2|3|4|5|6|7|8|9|10 | Next | View 100 per page
Low relevance matches: 109 other results may be of interest to you. Show low relevance matches
Atomic Models - All matter is made of atoms which are composed of protons, neutrons and electrons; natural radioactivity arises from the decay of nuclei in atoms ACSSU182 Year 9 Physical Sciences
Energy Transfer - Energy transfer through different mediums can be explained using wave and particle models ACSBL029 Year 11 Biodiversity and the interconnectedness of life
Ecosystem dynamics - Models of ecosystem interactions (for example, food webs, successional models) can be used to predict the impact of change and are based on interpretation of and extrapolation from sample data (for example, data derived from ecosystem surveying techniques ACSBL085 Year 12 Heredity and continuity of life
DNA genes and the continuity of life - Frequencies of genotypes and phenotypes of offspring can be predicted using probability models, including Punnett squares, and by taking into consideration patterns of inheritance, including the effects of dominant, autosomal and sex-linked alleles and mu ACSBL110 Year 12 Maintaining the internal environment
Homeostasis - Homeostasis involves a stimulus response model in which change in external or internal environmental conditions is detected and appropriate responses occur via negative feedback; in vertebrates, receptors and effectors are linked via a control centre by n ACSCH018 Year 11 Chemical fundamentals
Properties and structure of atoms - Atoms can be modelled as a nucleus surrounded by electrons in distinct energy levels, held together by electrostatic forces of attraction between the nucleus and electrons; atoms can be represented using electron shell diagrams (all electron shells or val ACSCH032 Year 11 Chemical fundamentals
Properties and structure of materials - The characteristic properties of metals (for example, malleability, thermal conductivity, electrical conductivity) are explained by modelling metallic bonding as a regular arrangement of positive ions (cations) made stable by electrostatic forces of attra ACSCH056 Year 11 Molecular interactions and reactions
Intermolecular forces and gases - The shapes of molecules can be explained and predicted using three dimensional representations of electrons as charge clouds and using valence shell electron pair repulsion (VSEPR) theory ACSCH099 Year 12 Equilibrium acids and redox reactions
Chemical equilibrium systems - The relationship between acids and bases in equilibrium systems can be explained using the Brønsted Lowry model and represented using chemical equations that illustrate the transfer of hydrogen ions ACSCH103 Year 12 Equilibrium acids and redox reactions
Oxidation and reduction - A range of reactions, including displacement reactions of metals, combustion, corrosion, and electrochemical processes, can be modelled as redox reactions involving oxidation of one substance and reduction of another substance ACSCH104 Year 12 Equilibrium acids and redox reactions
Oxidation and reduction - Oxidation can be modelled as the loss of electrons from a chemical species, and reduction can be modelled as the gain of electrons by a chemical species; these processes can be represented using half equations ACSPH063 Year 11 Linear Motion and Waves
Linear motion and force - Newton’s Three Laws of Motion describe the relationship between the force or forces acting on an object, modelled as a point mass, and the motion of the object due to the application of the force or forces ACSPH076 Year 11 Linear Motion and Waves
Waves - A wave model explains a wide range of lightrelated phenomena including reflection, refraction, total internal reflection, dispersion, diffraction and interference; a transverse wave model is required to explain polarisation 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 ACSCH031 Year 11 Chemical fundamentals
Properties and structure of materials - The properties of ionic compounds (for example, high melting point, brittleness, ability to conduct electricity when liquid or in solution) are explained by modelling ionic bonding as ions arranged in a crystalline lattice structure with forces of attract ACSPH071 Year 11 Linear Motion and Waves
Waves - The mechanical wave model can be used to explain phenomena related to reflection and refraction ACSPH074 Year 11 Linear Motion and Waves
Waves - Light exhibits many wave properties; however, it cannot be modelled as a mechanical wave because it can travel through a vacuum ACSPH075 Year 11 Linear Motion and Waves
Waves - A ray model of light may be used to describe reflection, refraction and image formation from lenses and mirrors ACSPH140 Year 12 Revolutions in modern physics
Quantum theory - On the atomic level, energy and matter exhibit the characteristics of both waves and particles
230 results found for 'Model'. Prev |1|2|3|4|5|6|7|8|9|10 | Next | View 100 per page
Low relevance matches: 109 other results may be of interest to you. Show low relevance matches
Curriculum resources related to 'Model'
ACSSU177 Year 9 Chemical SciencesAtomic Models - All matter is made of atoms which are composed of protons, neutrons and electrons; natural radioactivity arises from the decay of nuclei in atoms ACSSU182 Year 9 Physical Sciences
Energy Transfer - Energy transfer through different mediums can be explained using wave and particle models ACSBL029 Year 11 Biodiversity and the interconnectedness of life
Ecosystem dynamics - Models of ecosystem interactions (for example, food webs, successional models) can be used to predict the impact of change and are based on interpretation of and extrapolation from sample data (for example, data derived from ecosystem surveying techniques ACSBL085 Year 12 Heredity and continuity of life
DNA genes and the continuity of life - Frequencies of genotypes and phenotypes of offspring can be predicted using probability models, including Punnett squares, and by taking into consideration patterns of inheritance, including the effects of dominant, autosomal and sex-linked alleles and mu ACSBL110 Year 12 Maintaining the internal environment
Homeostasis - Homeostasis involves a stimulus response model in which change in external or internal environmental conditions is detected and appropriate responses occur via negative feedback; in vertebrates, receptors and effectors are linked via a control centre by n ACSCH018 Year 11 Chemical fundamentals
Properties and structure of atoms - Atoms can be modelled as a nucleus surrounded by electrons in distinct energy levels, held together by electrostatic forces of attraction between the nucleus and electrons; atoms can be represented using electron shell diagrams (all electron shells or val ACSCH032 Year 11 Chemical fundamentals
Properties and structure of materials - The characteristic properties of metals (for example, malleability, thermal conductivity, electrical conductivity) are explained by modelling metallic bonding as a regular arrangement of positive ions (cations) made stable by electrostatic forces of attra ACSCH056 Year 11 Molecular interactions and reactions
Intermolecular forces and gases - The shapes of molecules can be explained and predicted using three dimensional representations of electrons as charge clouds and using valence shell electron pair repulsion (VSEPR) theory ACSCH099 Year 12 Equilibrium acids and redox reactions
Chemical equilibrium systems - The relationship between acids and bases in equilibrium systems can be explained using the Brønsted Lowry model and represented using chemical equations that illustrate the transfer of hydrogen ions ACSCH103 Year 12 Equilibrium acids and redox reactions
Oxidation and reduction - A range of reactions, including displacement reactions of metals, combustion, corrosion, and electrochemical processes, can be modelled as redox reactions involving oxidation of one substance and reduction of another substance ACSCH104 Year 12 Equilibrium acids and redox reactions
Oxidation and reduction - Oxidation can be modelled as the loss of electrons from a chemical species, and reduction can be modelled as the gain of electrons by a chemical species; these processes can be represented using half equations ACSPH063 Year 11 Linear Motion and Waves
Linear motion and force - Newton’s Three Laws of Motion describe the relationship between the force or forces acting on an object, modelled as a point mass, and the motion of the object due to the application of the force or forces ACSPH076 Year 11 Linear Motion and Waves
Waves - A wave model explains a wide range of lightrelated phenomena including reflection, refraction, total internal reflection, dispersion, diffraction and interference; a transverse wave model is required to explain polarisation 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 ACSCH031 Year 11 Chemical fundamentals
Properties and structure of materials - The properties of ionic compounds (for example, high melting point, brittleness, ability to conduct electricity when liquid or in solution) are explained by modelling ionic bonding as ions arranged in a crystalline lattice structure with forces of attract ACSPH071 Year 11 Linear Motion and Waves
Waves - The mechanical wave model can be used to explain phenomena related to reflection and refraction ACSPH074 Year 11 Linear Motion and Waves
Waves - Light exhibits many wave properties; however, it cannot be modelled as a mechanical wave because it can travel through a vacuum ACSPH075 Year 11 Linear Motion and Waves
Waves - A ray model of light may be used to describe reflection, refraction and image formation from lenses and mirrors ACSPH140 Year 12 Revolutions in modern physics
Quantum theory - On the atomic level, energy and matter exhibit the characteristics of both waves and particles
Products related to 'Model'
Molymod Oxygen Red 2 Holes 23mm 105 Degrees - Pack of 10
23mm MOLYMOD OXYGEN ATOM 2 HOLES
A pack of 10 red Oxygen atoms 23mm diameter and with 2 holes angled at 105°.
This atom can be used in place of the 4 hole version if you do not intend to use the lone pair electron paddles.
A quality, genuine Molymod® atom fully comp...
Order code: MA-200-10
Molymod Sulphur Yellow 2 Holes 23mm 105 Angular
23mm MOLYMOD SULPHUR ATOM 2 HOLES
A pack of 10 yellow Sulphur atoms 23mm diameter and with 2 holes at 105° angular.
A quality, genuine Molymod® atom fully compatible with other Molymod® products.
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Molymod Metal Calcium Magnesium Grey 2 Holes
23mm MOLYMOD METAL ATOM 2 HOLES
A pack of 10 grey Metal Calcium or Magnesium atoms 23mm diameter and with 2 holes at 105° angular.
A quality, genuine Molymod® atom fully compatible with other Molymod® products.
Order code: MA-202-10
Molymod Nitrogen Blue 2 Holes 23mm Angular
23mm MOLYMOD NITROGEN ATOM 2 HOLES
A pack of 10 blue Nitrogen atoms 23mm diameter and with 2 holes angular.
A quality, genuine Molymod® atom fully compatible with other Molymod® products.
Order code: MA-203-10
Molymod Hydrogen White 2 Holes 17mm Linear
17mm MOLYMOD HYDROGEN ATOM 2 HOLES LINEAR
A pack of 10 white Hydrogen atoms 17mm diameter and with 2 holes angled at 180° (linear).
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Molymod Oxygen Red 2 Holes 17mm Linear
17mm MOLYMOD OXYGEN ATOM 2 HOLES LINEAR
A pack of 10 red oxygen atoms 17mm diameter and with 2 holes angled at 180° (linear).
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Molymod Metal Beryllium Grey 2 Holes 23mm 180 Linear
23mm MOLYMOD METAL BERYLLIUM ATOM 2 HOLES
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Molymod Carbon (Sp) Black 2 Holes 23mm 180 linear
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Molymod Oxygen Red 2 Holes 23mm Linear
23mm MOLYMOD OXYGEN ATOM 2 HOLES LINEAR
A pack of 10 red oxygen atoms 23mm diameter and with 2 holes angled at 180° (linear).
A quality, genuine Molymod® atom fully compatible with other Molymod® products.
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Molymod Oxygen Red 2 Holes 20mm 140 Degrees
20mm MOLYMOD OXYGEN ATOM 2 HOLES
A pack of 10 red oxygen atoms 20mm diameter and with 2 holes angled at 140° used when modelling silicates such as quartz.
A quality, genuine Molymod® atom fully compatible with other Molymod® products.
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Molymod Nitrogen Blue 3 Holes 23mm 107 Pyramidal
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A quality, genuine Molymod® atom fully compatible with other Molymod® products.
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Molymod Phosphorus Purple 3 Holes 23mm 107 Pyramidal
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Molymod Metal Grey 3 Holes 23mm 107 Pyramidal
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Molymod Carbon (Sp2) Black 3 Holes 23mm 120 Trigonal
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Molymod Nitrogen Blue 3 Holes 23mm 120 Trigonal
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Molymod Boron Beige 3 Holes 23mm 120 Trigonal
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Molymod Metal Aluminium Grey 3 Holes 23mm 120 Trigonal
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A pack of 10 grey Metal (Aluminium) atoms 23mm diameter and with 3 holes angled at 120° trigonal.
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Molymod Carbon Black 4 Holes 23mm 109 Tetrahedral
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A pack of 10 black Carbon (sp3) atoms 23mm diameter and with 4 holes angled at 109° tetrahedral.
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Molymod Nitrogen Blue 4 Holes 23mm 109 Tetrahedral
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Molymod Metal Grey 4 Holes 23mm 109 Tetrahedral
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Molymod Silicon Grey 4 Holes 23mm 109 Tetrahedral
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Molymod Phosphorous Purple 4 Holes 23mm 109 Tetrahedral
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Molymod Metal Platinum Grey 4 Holes 23mm 90 Square Planar
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Molymod Phosphorus Purple 5 Holes 23mm 90/120 Tribipyramidal
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Molymod Carbon Black 5 Holes 23mm 90/120 Tribipyramidal
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230 results found for 'Model'. Prev |1|2|3|4|5|6|7|8|9|10 | Next | View 100 per page
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