23 results found for 'Waves'. Strip plurals: waves to wav Waves to Waves
Low relevance matches: 4 other results may be of interest to you. Show low relevance matches
Energy Transfer - Energy transfer through different mediums can be explained using wave and particle models 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 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 ACSPH140 Year 12 Revolutions in modern physics
Quantum theory - On the atomic level, energy and matter exhibit the characteristics of both waves and particles
23 results found for 'Waves'.
Low relevance matches: 4 other results may be of interest to you. Show low relevance matches
Curriculum resources related to 'Waves'
ACSSU182 Year 9 Physical SciencesEnergy Transfer - Energy transfer through different mediums can be explained using wave and particle models 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 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 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 'Waves'
Vernier Power Amplifier Accessory Speaker
VERNIER POWER AMPLIFIER ACCESSORY SPEAKER
This kit includes a speaker and accessories used with the Vernier Power Amplifier to study mechanical waves and springs. The speaker contains a lightweight metal disc glued to the speaker cone. A drive post attached to the metal p...
Order code: PAAS-PAMP
Vernier Microphone
VERNIER MICROPHONE
Use the Vernier microphone to display and study the waveforms of sounds from voices and musical instruments. It is also appropriate for speed of sound experiments.
Activities with sound waves:
• Demonstrate how the wave pattern changes when ...
Order code: MCA-BTA
Advanced Physics with Vernier Beyond Mechanics
ADVANCED PHYSICS WITH VERNIER – BEYOND MECHANICS
This book is the second of a two-volume set of experiments for a more in-depth introductory physics course in tertiary physics, AP Physics or IB Physics. Experiments are designed for an interactive teaching style with plann...
Order code: PHYS-ABM
Advanced Physics with Vernier Beyond Mechanics - Electronic Version
ADVANCED PHYSICS WITH VERNIER BEYOND MECHANICS - ELECTRONIC
This book is the second of a two-volume set of experiments for a more in-depth introductory physics course in tertiary physics, AP Physics or IB Physics. Experiments are designed for an interactive teaching style...
Order code: PHYS-ABM-E
Physics with Vernier
PHYSICS WITH VERNIER
Physics with Vernier is a lab book containing 35 experiments in mechanics, sound, light, electricity and magnetism. This book has a wide variety of experiments for Motion Detectors, Force Sensors, Light Sensors, Magnetic Field Sensors, Microphones, Cu...
Order code: PWV
Physics with Vernier - Electronic Version
PHYSICS WITH VERNIER - ELECTRONIC
Physics with Vernier is a lab book containing 35 experiments in mechanics, sound, light, electricity and magnetism. This book has a wide variety of experiments for Motion Detectors, Force Sensors, Light Sensors, Magnetic Field Sensors, Mi...
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IEC Microwave Apparatus Complete Kit
No longer available but some spare parts are still available.
IEC MICROWAVE APPARATUS Optical experiments using microwaves instead of visible light are convenient and can give students a far better grasp of the principles involved. Blackout conditions or special light sources are not required. Microwave is ‘coherent transmission’ so... Order code: SW2140-001
IEC MICROWAVE APPARATUS Optical experiments using microwaves instead of visible light are convenient and can give students a far better grasp of the principles involved. Blackout conditions or special light sources are not required. Microwave is ‘coherent transmission’ so... Order code: SW2140-001
ScienceWiz Teacher 6 Pack Light
This ScienceWiz™ Teacher's Pack includes enough equipment for 6 students to explore and develop a fundamental understanding of the key concepts of light while building a foundation for analytical thinking. Comes in a specially designed box for easy storage with compartments fo...
Order code: SCW9902
ScienceWiz Light Kit Sample
This ScienceWiz™ Sample Kit enables a student to explore and develop a fundamental understanding of the key concepts of light while building a foundation for analytical thinking. Supplied in a re-sealable plastic bag.
For ages 5-12.
Note: One 1.5V size D battery i...
Order code: SCW9902-S
IEC Electronics Kit Basic
IEC BASIC ELECTRONICS KIT
The IEC Basic Electronics Kit contains components to teach basic electronic theory using a large range of experiments and investigations. The components have synthetic rubber feet that press and hold firmly into blue perforated back plates that c...
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Laser Education Kit
Limited stock
Laser Pointer Education Kit. An inexpensive experiment kit for use with most laser pointers. This economical kit is packaged so that each student has their personal optics kit to study important concepts of light, colour and light waves using standard laser pointers. The mult... Order code: IF-45-211
Laser Pointer Education Kit. An inexpensive experiment kit for use with most laser pointers. This economical kit is packaged so that each student has their personal optics kit to study important concepts of light, colour and light waves using standard laser pointers. The mult... Order code: IF-45-211
IEC Signal Generator - Audio Oscillator 0.1Hz to 99.999kHz 1.5A
IEC MINI-WAVE SIGNAL GENERATOR
The Mini-Wave is a very compact digital, high current instrument with sine, triangular, saw tooth or square wave output.
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Order code: LB3753-101
IEC Signal Generator 0.1 to 100kHz High Power
IEC SIGNAL GENERATOR HIGH POWER 0.1Hz-100kHz
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Order code: LB3754-001
IEC Electronics Kit Signal Generator 1-10k Hz
IEC ELECTRONICS KIT SIGNAL GENERATOR 1-10kHz
A mini 1Hz-10kHz signal generator on a 76x76mm base with 2mm sockets for connection as supplied in the EM1764-001 IEC Basic Electronics Kit.
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IEC Vibrator for Strings Meldes App 4-8V AC
MELDE'S APPARATUS - VIBRATOR FOR STRINGS
This compact and robust instrument is used for the lateral vibration of a cord at 50Hz or 60Hz frequency for experiments in standing waves and resonance. It can be free standing, clamped to a bench or supported horizontally or vert...
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IEC Wave Demo Spring Set
IEC WAVE DEMONSTRATION SPRING SET
The IEC Wave Demonstration Spring Set is a pair of high quality, tempered and corrosion resistant springs used to clearly and simply demonstrate wave motion to your students.
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Order code: SW4260-001
IEC Ripple Tank and Full Kit with Illuminator and Rippler
No longer availble, some part are still available.
Complete Ripple Tank with lamp and an adjustable speed 3 volt ripple generator. Robust and lightweight tank made of high impact plastic, fitted with a distortion free plate glass bottom. With height adjustable foldaway legs to suit application or can be used directly over an over... Order code: SW3430-001
Complete Ripple Tank with lamp and an adjustable speed 3 volt ripple generator. Robust and lightweight tank made of high impact plastic, fitted with a distortion free plate glass bottom. With height adjustable foldaway legs to suit application or can be used directly over an over... Order code: SW3430-001
IEC Chladni Plates Special Sand 1kg
IEC CHLADNI PLATES SAND 1Kg
A replacement 1kg bag of the specially graded 100 grit fine silica sand used with SW0855-001 IEC Chladni Plates.
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IEC Wave Demo Spring Short Slinky
IEC WAVE DEMONSTRATION SHORT SLINKY SPRING
This slinky spring can stretch from a compact length of 100mm to an amazing 10 metres (approximate lengths). When stretched along the floor or hung vertically it can clearly and simply demonstrate wave motion.
This spring is ...
Order code: PA4260-002
IEC Wave Demo Spring Long
IEC WAVE DEMONSTRATION LONG THIN SPRING
A long 20 x 1800mm spring which can stretch to approximately 10 metres. When stretched along the floor or hung vertically it can clearly and simply demonstrate wave motion.
This spring is also available in the SW4260-001 spring ...
Order code: PA4260-003
Tuning Fork Blued Steel Set 8 in Case
TUNING FORKS BLUE STEEL SET OF 8
An octave set of 8 blued steel tuning forks supplied in a polystyrene case.
Includes one tuning fork each of:
C 256
D 288
E 320
F 341.3
G 384
A 426.6
B 480
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IEC Chladni Plates and Violin Bow and Sand
IEC CHLADNI PLATES WITH VIOLIN BOW AND SAND
Chladni's plates are an interesting way of demonstrating vibrations in flat plates. Fine sand is sprinkled onto the metal plate which is rigidly supported at its centre. Passing a violin bow across the edge of the plate sets the...
Order code: SW0855-001
IEC Kundts Apparatus 50mm Diameter 800mm Long Complete
IEC KUNDT'S APPARATUS
Use this quality Australian made apparatus to reproduce Kundt’s experiments studying wave motion inside a tube using sound and creating ‘standing waves’.
Apart from an audio oscillator, amplifier or oscilloscope (which are not included) no other e...
Order code: SW1996-001
23 results found for 'Waves'.