348 results found for 'Electric'. Prev |1|2|3|4|5|6|7|8|9|10|11|12|13|14 | Next | View 100 per page
Low relevance matches: 114 other results may be of interest to you. Show low relevance matches
Electrical Circuits - Electrical energy can be transferred and transformed in electrical circuits and can be generated from a range of sources ACSSU219 Year 6 Physical Sciences
Alternative Energies - Energy from a variety of sources can be used to generate electricity ACSCH030 Year 11 Chemical fundamentals
Properties and structure of materials - Ions are atoms or groups of atoms that are electrically charged due to an imbalance in the number of electrons and protons; ions are represented by formulae which include the number of constituent atoms and the charge of the ion (for example, O2, SO42) 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 ACSCH108 Year 12 Equilibrium acids and redox reactions
Oxidation and reduction - Galvanic cells, including fuel cells, generate an electrical potential difference from a spontaneous redox reaction; they can be represented as cell diagrams including anode and cathode halfequations 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 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 ACSPH108 Year 12 Gravity and electromagnetism
Electromagnetism - Magnets, magnetic materials, moving charges and currentcarrying wires experience a force in a magnetic field; this force is utilised in DC electric motors 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 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 ACSCH027 Year 11 Chemical fundamentals
Properties and structure of atoms - The type of bonding within substances explains their physical properties, including melting and boiling point, conductivity of both electricity and heat, strength and hardness ACSPH103 Year 12 Gravity and electromagnetism
Electromagnetism - A positively charged body placed in an electric field will experience a force in the direction of the field; the strength of the electric field is defined as the force per unit charge ACSPH104 Year 12 Gravity and electromagnetism
Electromagnetism - Point charges and charged objects produce an electric field in the space that surrounds them; field theory attributes the electrostatic force on a point charge or charged body to the presence of an electric field ACSPH105 Year 12 Gravity and electromagnetism
Electromagnetism - When a charged body moves or is moved from one point to another in an electric field and its potential energy changes, work is done on or by the field
348 results found for 'Electric'. Prev |1|2|3|4|5|6|7|8|9|10|11|12|13|14 | Next | View 100 per page
Low relevance matches: 114 other results may be of interest to you. Show low relevance matches
Curriculum resources related to 'Electric'
ACSSU097 Year 6 Physical SciencesElectrical Circuits - Electrical energy can be transferred and transformed in electrical circuits and can be generated from a range of sources ACSSU219 Year 6 Physical Sciences
Alternative Energies - Energy from a variety of sources can be used to generate electricity ACSCH030 Year 11 Chemical fundamentals
Properties and structure of materials - Ions are atoms or groups of atoms that are electrically charged due to an imbalance in the number of electrons and protons; ions are represented by formulae which include the number of constituent atoms and the charge of the ion (for example, O2, SO42) 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 ACSCH108 Year 12 Equilibrium acids and redox reactions
Oxidation and reduction - Galvanic cells, including fuel cells, generate an electrical potential difference from a spontaneous redox reaction; they can be represented as cell diagrams including anode and cathode halfequations 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 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 ACSPH108 Year 12 Gravity and electromagnetism
Electromagnetism - Magnets, magnetic materials, moving charges and currentcarrying wires experience a force in a magnetic field; this force is utilised in DC electric motors 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 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 ACSCH027 Year 11 Chemical fundamentals
Properties and structure of atoms - The type of bonding within substances explains their physical properties, including melting and boiling point, conductivity of both electricity and heat, strength and hardness ACSPH103 Year 12 Gravity and electromagnetism
Electromagnetism - A positively charged body placed in an electric field will experience a force in the direction of the field; the strength of the electric field is defined as the force per unit charge ACSPH104 Year 12 Gravity and electromagnetism
Electromagnetism - Point charges and charged objects produce an electric field in the space that surrounds them; field theory attributes the electrostatic force on a point charge or charged body to the presence of an electric field ACSPH105 Year 12 Gravity and electromagnetism
Electromagnetism - When a charged body moves or is moved from one point to another in an electric field and its potential energy changes, work is done on or by the field
Products related to 'Electric'
Buzzer 4-16V DC Continuous or Pulse Screw Terminal
Piezo buzzer, 4-16V, 2.9kHz with 95dB continuous or 90dB pulsed output at 1 metre. Heavy duty panel mount with screw down nut. If you are sick of trying to get cheap, little electric bells working (we think that they are so bad that we won't sell them) then a buzzer may be the ...
Order code: SC5802
Hydro-Electric Generator or Dynamo
This versatile and well made Hydro-Electric Generator (Dynamo) brings hydropower right into your classroom.
Operation:
The Hydro-Electric connects to the tap and the local water supply so that students can directly witness the conversion of water into electricity.
Pro...
Order code: SCHEG
IEC Savart Tone Wheels Alloy with 10/6mm Diameter Stem
IEC SAVART'S TONE WHEEL
The 'Savart's Tone Wheel' consists of 4 aluminium toothed discs mounted on a central shaft so that the set of four can be rotated with an electric drill or similar. Each disc has either 36, 45, 54 or 72 teeth which is a ratio of 4, 5, 6 and 8.
...
Order code: SW3701-001
IEC Siren Disc Aluminium
IEC ALUMINIUM SIREN DISC
A hard aluminium disc about 180mmD mounted on a central shaft so that it can be rotated with an electric drill or similar. The disc has 4 marked rows with 24, 30, 36 and 48 holes which is a ratio of 4, 5, 6 and 8.
When a fine jet of air is blow...
Order code: SW3760-001
IEC Electricity Kit AC Theory Unit
IEC ELECTRICITY KIT AC THEORY UNIT
The IEC AC Theory Electricity Kit contains all the components necessary to perform a range of experiments for teaching AC electrical theory. The kit contains an accurate digital signal source so students can study the effects of frequenc...
Order code: EM0060-001
Key Experiment Electrical Energy Convertors
This key experiment uses data technology to measure the energy conversion of a range of energy convertors. Wind, solar or fuel cell devices are explored.
Description
With the approach and the probes described you can measure voltage and current output for any electrica...
Order code: KEPS20B
IEC Electricity Kit Capacitor 5uF Dual
IEC ELECTRICITY KIT 5µF DUAL CAPACITOR
A 5µF + 5µF dual capacitor in a sturdy, clear plastic 76x76mm box with 4mm banana sockets for easy connection.
Compatible with the three EM1763 IEC Electricity Kits.
Order code: PA1763-040
IEC Electricity Kit Capacitor 10uF Single
IEC ELECTRICITY KIT 10µF DUAL CAPACITOR
A 10µF + 10µF dual capacitor in a sturdy, clear plastic 76x76mm box with 4mm banana sockets for easy connection.
Compatible with the three EM1763 IEC Electricity Kits.
Order code: PA1763-050
IEC Electricity Kit Holder for D Cell
IEC ELECTRICITY KIT BATTERY HOLDER FOR D BATTERY
D sized battery holder compatible with the three EM1763 IEC Electricity Kits. The holders can be clipped to each other to form either series or parallel connections for the batteries.
Order code: PA1763-060
IEC Electricity Kit Coils 300t for U/I Core
IEC ELECTRICITY KIT 300T COIL FOR U/I CORE
A 300T primary coil for transformer 'U' and 'I' core 12V AC with 4mm sockets compatible with the three EM1763 IEC Electricity Kits.
Order code: PA1763-070
IEC Electricity Kit Coils 600t for U/I Core
IEC ELECTRICITY KIT 600T COIL FOR U/I CORE
A 600T secondary coil for transformer 'U' and 'I' core 12V AC with 4mm sockets compatible with the three EM1763 IEC Electricity Kits.
Order code: PA1763-080
IEC Electricity Kit Connector Block
IEC ELECTRICITY KIT CONNECTOR BLOCK
A connector block on a 76x76mm base with four 4mm sockets for circuit and device connections and compatible with the three EM1763 IEC Electricity Kits.
Order code: PA1763-090
IEC Electricity Kit Cores Plain Iron
IEC ELECTRICITY KIT 3 PLAIN IRON CORES
A set of 3 plain iron cores (one core 16x16x95mmL and two cores 16x16x48mmL) compatible with the three EM1763 IEC Electricity Kits.
Order code: PA1763-110
IEC Electricity Kit Experiment Manual
IEC ELECTRICITY KIT EXPERIMENT MANUAL
The experiment manual with glossary of terms as supplied with the EM1763-001 IEC Electricity Kit.
Order code: PA1763-120
IEC Electricity Kit Iron Filings
IEC ELECTRICITY KIT IRON FILINGS
A component of the EM1763-001 IEC Electricity Kit, this well sealed flip-top sprinkler bottle of iron filings allows magnetic fields around magnets and magnetic coils to be seen and studied.
This is the same product as PA1969-001....
Order code: PA1763-130
IEC Electricity Kit Lamp Holder - Two MES
IEC ELECTRICITY KIT LAMP HOLDER FOR TWO MES LAMPS - LAMPS NOT INCLUDED
A component of the EM1763-001 IEC Electricity Kit, this lamp holder for MES (Miniature Edison Screw) lamps (not supplied) has a 76x76mm base with four 4mm banana sockets for easy connection.
Order code: PA1763-140
IEC Electricity Kit Lamps 2.5V 12V MES in Vials
IEC ELECTRICITY KIT 2.5V AND 12V MES LAMPS IN VIAL
A component of the EM1763-001 IEC Electricity Kit, this screw top vial contains
10 x 2.5V MES (Miniature Edison Screw) lamps and 10 x 12V MES lamps.
Order code: PA1763-150
IEC Electricity Kit Magnetism Demo Rectangular Coil
IEC ELECTRICITY KIT MAGNETISM DEMO RECTANGULAR COIL
A component of the EM1763-001 IEC Electricity Kit, this rectangular coil provides the field pattern of a straight conductor passing through a surface. This Magnetic Field Demonstrator consists of a rectangular coil passi...
Order code: PA1763-160
IEC Electricity Kit Magnetism Demo Round Coil
IEC ELECTRICITY KIT MAGNETISM DEMO ROUND COIL
A component of the EM1763-001 IEC Electricity Kit, this round coil provides the field pattern of 2 conductors passing through a surface with current passing up in one and down in the other. This Magnetic Field Demonstrator con...
Order code: PA1763-170
IEC Electricity Kit Magnetism Demo Spiral Coil
IEC ELECTRICITY KIT MAGNETISM DEMO SPIRAL COIL
A component of the EM1763-001 IEC Electricity Kit, this spiral coil is wound through the surface to provide the field pattern of a solenoid. This Magnetic Field Demonstrator consists of a round spiral coil passing through a t...
Order code: PA1763-180
IEC Electricity Kit Plotting Compasses 10 in Vial
IEC ELECTRICITY KIT 10 PLOTTING COMPASSES
A vial of 10 plotting compasses for detecting magnetic fields as supplied with the three EM1763 IEC Electricity Kits.
Order code: PA1763-200
IEC Electricity Kit Resistor 50 ohm
Resistors from the Electricity Kit in a sturdy, clear plastic box with resistor value and maximum permissible current clearly marked. Each boxed resistor has the schematic symbol for a resistor and 4mm banana sockets for easy connection.
Order code: PA1763-220
IEC Electricity Kit Resistor 100 ohm
Resistors from the Electricity Kit in a sturdy, clear plastic box with resistor value and maximum permissible current clearly marked. Each boxed resistor has the schematic symbol for a resistor and 4mm banana sockets for easy connection.
Order code: PA1763-230
IEC Electricity Kit Resistor 500 ohm
Resistors from the Electricity Kit in a sturdy, clear plastic box with resistor value and maximum permissible current clearly marked. Each boxed resistor has the schematic symbol for a resistor and 4mm banana sockets for easy connection.
Order code: PA1763-240
348 results found for 'Electric'. Prev |1|2|3|4|5|6|7|8|9|10|11|12|13|14 | Next | View 100 per page