33 low relevance results shown for 'Motion'. Prev |1|2 | Next | View 100 per page
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Forces and Moving - The way objects move depends on a variety of factors including their size and shape ACSSU117 Year 7 Physical Sciences
Forces and Machines - Change to an object’s motion is caused by unbalanced forces, including Earth’s gravitational attraction, acting on the object ACSSU151 Year 8 Chemical Sciences
Matter and Particles - The properties of the different states of matter can be explained in terms of the motion and arrangement of particles ACSSU229 Year 10 Physical Sciences
Forces and Motion - The motion of objects can be described and predicted using the laws of physics ACSPH060 Year 11 Linear Motion and Waves
Linear motion and force - Uniformly accelerated motion is described in terms of relationships between measurable scalar and vector quantities, including displacement, speed, velocity and acceleration ACSPH061 Year 11 Linear Motion and Waves
Linear motion and force - Representations, including graphs and vectors, and/or equations of motion, can be used qualitatively and quantitatively to describe and predict linear motion ACSPH062 Year 11 Linear Motion and Waves
Linear motion and force - Vertical motion is analysed by assuming the acceleration due to gravity is constant near Earth’s surface 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 ACSPH064 Year 11 Linear Motion and Waves
Linear motion and force - Momentum is a property of moving objects; it is conserved in a closed system and may be transferred from one object to another when a force acts over a time interval ACSPH065 Year 11 Linear Motion and Waves
Linear motion and force - Energy is conserved in isolated systems and is transferred from one object to another when a force is applied over a distance; this causes work to be done and changes to kinetic and/or potential energy of objects ACSPH066 Year 11 Linear Motion and Waves
Linear motion and force - Collisions may be elastic and inelastic; kinetic energy is conserved in elastic collisions ACSPH069 Year 11 Linear Motion and Waves
Waves - Waves may be represented by time and displacement wave diagrams and described in terms of relationships between measurable quantities, including period, amplitude, wavelength, frequency and velocity ACSPH072 Year 11 Linear Motion and Waves
Waves - The superposition of waves in a medium may lead to the formation of standing waves and interference phenomena, including standing waves in pipes and on stretched strings ACSPH073 Year 11 Linear Motion and Waves
Waves - A mechanical system resonates when it is driven at one of its natural frequencies of oscillation; energy is transferred efficiently into systems under these conditions 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 ACSPH099 Year 12 Gravity and electromagnetism
Gravity and motion - Projectile motion can be analysed quantitatively by treating the horizontal and vertical components of the motion independently ACSPH100 Year 12 Gravity and electromagnetism
Gravity and motion - When an object experiences a net force of constant magnitude perpendicular to its velocity, it will undergo uniform circular motion, including circular motion on a horizontal plane and around a banked track ACSPH067 Year 11 Linear Motion and Waves
Waves - Waves are periodic oscillations that transfer energy from one point to another ACSPH068 Year 11 Linear Motion and Waves
Waves - Longitudinal and transverse waves are distinguished by the relationship between the direction of oscillation relative to the direction of the wave velocity ACSPH070 Year 11 Linear Motion and Waves
Waves - Mechanical waves transfer energy through a medium; mechanical waves may oscillate the medium or oscillate the pressure within the medium 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 ACSPH077 Year 11 Linear Motion and Waves
Waves - The speed of light is finite and many orders of magnitude greater than the speed of mechanical waves (for example, sound and water waves); its intensity decreases in an inverse square relationship with distance from a point source ACSPH098 Year 12 Gravity and electromagnetism
Gravity and motion - The vector nature of the gravitational force can be used to analyse motion on inclined planes by considering the components of the gravitational force (that is, weight) parallel and perpendicular to the plane
33 low relevance results shown for 'Motion'. Prev |1|2 | Next | View 100 per page
Showing low relevance matches only. Return to normal search results
Curriculum resources related to 'Motion'
ACSSU005 Foundation Physical SciencesForces and Moving - The way objects move depends on a variety of factors including their size and shape ACSSU117 Year 7 Physical Sciences
Forces and Machines - Change to an object’s motion is caused by unbalanced forces, including Earth’s gravitational attraction, acting on the object ACSSU151 Year 8 Chemical Sciences
Matter and Particles - The properties of the different states of matter can be explained in terms of the motion and arrangement of particles ACSSU229 Year 10 Physical Sciences
Forces and Motion - The motion of objects can be described and predicted using the laws of physics ACSPH060 Year 11 Linear Motion and Waves
Linear motion and force - Uniformly accelerated motion is described in terms of relationships between measurable scalar and vector quantities, including displacement, speed, velocity and acceleration ACSPH061 Year 11 Linear Motion and Waves
Linear motion and force - Representations, including graphs and vectors, and/or equations of motion, can be used qualitatively and quantitatively to describe and predict linear motion ACSPH062 Year 11 Linear Motion and Waves
Linear motion and force - Vertical motion is analysed by assuming the acceleration due to gravity is constant near Earth’s surface 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 ACSPH064 Year 11 Linear Motion and Waves
Linear motion and force - Momentum is a property of moving objects; it is conserved in a closed system and may be transferred from one object to another when a force acts over a time interval ACSPH065 Year 11 Linear Motion and Waves
Linear motion and force - Energy is conserved in isolated systems and is transferred from one object to another when a force is applied over a distance; this causes work to be done and changes to kinetic and/or potential energy of objects ACSPH066 Year 11 Linear Motion and Waves
Linear motion and force - Collisions may be elastic and inelastic; kinetic energy is conserved in elastic collisions ACSPH069 Year 11 Linear Motion and Waves
Waves - Waves may be represented by time and displacement wave diagrams and described in terms of relationships between measurable quantities, including period, amplitude, wavelength, frequency and velocity ACSPH072 Year 11 Linear Motion and Waves
Waves - The superposition of waves in a medium may lead to the formation of standing waves and interference phenomena, including standing waves in pipes and on stretched strings ACSPH073 Year 11 Linear Motion and Waves
Waves - A mechanical system resonates when it is driven at one of its natural frequencies of oscillation; energy is transferred efficiently into systems under these conditions 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 ACSPH099 Year 12 Gravity and electromagnetism
Gravity and motion - Projectile motion can be analysed quantitatively by treating the horizontal and vertical components of the motion independently ACSPH100 Year 12 Gravity and electromagnetism
Gravity and motion - When an object experiences a net force of constant magnitude perpendicular to its velocity, it will undergo uniform circular motion, including circular motion on a horizontal plane and around a banked track ACSPH067 Year 11 Linear Motion and Waves
Waves - Waves are periodic oscillations that transfer energy from one point to another ACSPH068 Year 11 Linear Motion and Waves
Waves - Longitudinal and transverse waves are distinguished by the relationship between the direction of oscillation relative to the direction of the wave velocity ACSPH070 Year 11 Linear Motion and Waves
Waves - Mechanical waves transfer energy through a medium; mechanical waves may oscillate the medium or oscillate the pressure within the medium 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 ACSPH077 Year 11 Linear Motion and Waves
Waves - The speed of light is finite and many orders of magnitude greater than the speed of mechanical waves (for example, sound and water waves); its intensity decreases in an inverse square relationship with distance from a point source ACSPH098 Year 12 Gravity and electromagnetism
Gravity and motion - The vector nature of the gravitational force can be used to analyse motion on inclined planes by considering the components of the gravitational force (that is, weight) parallel and perpendicular to the plane
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KidWind Wind Turbine Generator
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This is KidWind's primary generator for wind turbine experiments because it runs smoothly and provides high power output at a relatively low RPM.
This generator has 1.2m leads which are attached with shrink-wrap reinforced soldering. Typ...
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KidWind Wind Turbine Generator 10 Pack
KIDWIND WIND TURBINE GENERATOR 10 PACK
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KidWind High Torque Turbine Generator
KIDWIND HIGH TORQUE GENERATOR
The KidWind High Torque Generator is another option for your wind turbine generator. The High Torque Generator is great for load devices with higher current draw (like the water pump). When compared to the standard Wind Turbine Generator this...
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KidWind Mini Water Pump with Tubing
KIDWIND MINI WATER PUMP WITH TUBING
The KidWind low voltage water pump with tubing is a great way to demonstrate and make visible, power output from KidWind wind and solar kits. It makes comparing different turbine designs easy; simply measure how high different turbines ...
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KidWind Red Blade Set
KIDWIND RED BLADE SET
These 200mm diameter wind turbine blades are optimised to spin at very high RPMs. The blades fit on any DC generator or motor with a 2mm driveshaft. Because they are optimised to spin at very high RPMs they produce high voltage (5-6 volts) with the K...
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KidWind Wind Turbine Hub Pack of 10
KIDWIND WIND TURBINE HUB 10 PACK
The KidWind 12-hole crimping hub made from recycled plastic allows you to turn any DC generator into a wind turbine.
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KidWind Wind Turbine Hub Pack of 3
KIDWIND WIND TURBINE HUBS
This pack of 3 KidWind hubs with twelve crimped holes are made from recycled plastic and allow you to turn any DC generator into a wind turbine.
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Crookes Radiometer - All Glass
Crookes invented the Radiometer in 1873. The Radiometer has a rotor with four vanes which are dark on one side and light on the other. The glass bulb has a partial vacuum. The rotor spins when exposed to light. The vanes rotate faster as light intensity increases, providing a ...
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33 low relevance results shown for 'Motion'. Prev |1|2 | Next | View 100 per page