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Science Study Notes
Elements, Compounds &; Mixtures, Chemical &; Physical Changes, Energy
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Meanings:
Element: A substance that cannot be broken down into simpler substances by chemical means.
Compound: A substance made up of two or more different chemical elements combined into a fixed ratio.
Mixture: A substance made by mixing other substances.
Physical Change:
A change in which no new substance is formed
Can be a change in shape, expansion & contraction, change of state, and mixing
Forced applied to break, bend, stretch, crush, twist, or compress an object
Chemical Change:
A new substance is formed
We can determine if a chemical change has occurred by:
A permanent colour change
A gas (Bubbles) is given off
A change in temperature
The process of rearranging atoms to form new substances is known as a chemical reaction. (MEANING OF CHEMICAL CHANGE)
Changing Of States:
If enough heat is applied to a substance then the expansion will take place but also the substance will change states.
A solid can change to a liquid – melting – or from a liquid to a gas – evaporation.
If enough cooling is applied to a substance then contraction will take place but also the substance will change states.
A gas can change to a liquid – condensation – or from a liquid to a solid freezing/solidification.
Some substances can change directly from solid to gas - sublimation – or from a gas to a solid – deposition.
What is Energy/Energy Types:
Energy is the force that causes things to move
Energy exist in everything (It CANNOT be destroyed)
Energy cannot be seen or weighed, but it can be measured (Joules)
The type of forms of energy include:
Kinetic Energy: The energy of movement – anything that moves has kinetic energy. The faster the object the higher the amount of kinetic energy.
Heat Energy: From the sun, fire, chemical reactions, electrical devices, and even from body heat (human/animal). Heat can warm, dry, melt, and make hot air balloons rise (When you yawn heat energy is produced)
Light Energy: From sun, light globes, fires, animals (glow worms)
Sound Energy: Vibrations from moving air. Sound from voice, instruments, cars, and power tools
Electricity Energy: From power stations, solar cells, batteries, and lightning. Electrical energy powers all electrical devices such as TVs, laptops, mobile phones, and cooking devices.
Energy Calculation:
1 KJ = 1000 J
1MJ = 100000 J
Stored Energy = Potential Energy
Types Of Potential Energy:
Many objects have stored energy (AKA- Potential Energy)
Types of potential energy include:
Gravitational Potential Energy: Stored in an object when it is above the ground. The higher the object the greater the Gravitational Potential Energy.
Chemical Energy: Energy stored in substances such as food.
Elastic Potential Energy: Energy stored in a stretched or squashed spring. Can also be found in elastic bands (elastic potential energy). This energy gets released when the elastic band is let go.
Nuclear Energy: Stored inside atoms that make up all matter. Nuclear energy is released in nuclear power plants or when bombs explode and inside the sun.
Types Of Energy Transfer:
Heat Transfer – Heat energy from a heater can be transferred from the heater to you. If you stand in front of a fire, you will warm up and start to get hot. Heat energy can be transferred in three ways.
Conduction – Occurs between two objects that come into contact with each other. Heat transfers from the hotter object to the cooler one. This occurs until they are at the same temperature.
Convection – Heat travels through liquids and gases – Heat rises, making it hotter near the ceiling, compared to the floor. Convection spreads heat from ducted heating vents (air con) through the rooms of the house.
Radiation – Heat radiates (spreads outwards) from a hot object. Radiant heat is transferred as a wave that travels through air and space.
Electric Charge:
Atoms are the tiny building blocks that make up everything around us. They are made of three parts:
Protons: Positive (+) particles in the middle (nucleus) of the atom.
Neutrons: Neutral (no charge) particles also in the nucleus.
Electrons: Negative (-) particles that move around the outside of the atom.
How Do Ions Form?
Atoms can gain or lose electrons.
Losing electrons makes the atom positively charged, forming a positive ion – Known as a Cation.
Gaining electrons makes the atom negatively charged, forming a negative ion – Known as an Anion.
Neutral vs. Charged Atoms: A neutral atom has the same number of protons and electrons.
Ions have different numbers of protons and electrons, which gives them a charge.
Principle Of Conservation Of Energy:
Energy can neither be created nor destroyed, it only changes forms (e.g. kinetic and potential energy). EXAMPLE = When you turn on a light switch for a light bulb it goes from electrical energy to light energy, and thermal energy.
Current Electricity:
Current electricity is when electric charges (electrons) flow through a wire.
The electrons move from a place with more charge to a place with less charge.
When the electrons flow through different devices, they can:
Make light bulbs glow.
Turn motors.
Produce heat in devices like toasters.
Simple Electrical Circuits:
An electric circuit is a pathway that lets electricity flow.
Parts of a Simple Circuit:
Energy Source: This is like a battery, which pushes the electrons around.
Energy User: This could be a light bulb or a motor, which uses electricity.
Wires: These connect everything and let the electricity flow.
Open vs. Closed Circuits:
Closed Circuit: The electricity can flow all the way around.
Open Circuit: There is a break, so the electricity flow stops.
Periodic Table: (Learn the first 20 Elements)
First 20 Elements and their properties:
Hydrogen: colourless, odourless, tasteless, flammable.
Helium: colourless, odourless.
Lithium: soft, silvery metal.
Beryllium: silvery-white, lustrous, soft metal.
Boron: light, flammable, tough.
Carbon: both hard and soft
Nitrogen: colourless, odourless, tasteless.
Oxygen: colourless, odourless, higher density than air
Fluorine: pale yellow, diatomic, flammable
Neon: colourless, tasteless, odourless
Sodium: soft metal, malleable
Magnesium: light, silvery-white and fairly tough metal
Aluminum: silvery-white metal, light, low density
Silicon: very brittle, metallic luster (metal like appearance)
Phosphorus: waxy white solid, when pure is colourless and transparent
Sulfur: tasteless, odourless, brittle, pale yellow
Chlorine: greenish yellow, moderately soluble
Argon: colourless, odourless, nonflammable
Potassium: soft and white with a silvery lustre
Calcium: i wanna die rn omdsilvery-white metallic, ductile and malleable.
Lattice Structures:
There are 7 different lattice structures
Lattice structures are three-dimensional arrangements of ions or atoms in many different materials and solids.
Lattices structures are composed of one or more repeating unit cells
Particle Models:
Solids: The atoms of a solid are firmly packed together and vibrate.
Liquids:The atoms of a liquid are more freely distributed compared to solids.
Gases:The atoms of a gasses are extremely free and do not touch.
Energy Efficiency:
Energy efficiency is the use of less energy to perform the same tasks. For example, heating a room with the windows open uses a lot of energy because the warm air escapes through the windows. A way you can save energy is by:
Solar panels
Energy saving light bulbs
Installing a heat pump
Etc
Properties of:
Metals | Non-Metals | Metalloids |
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Circuit Components: | Circuit Components (Image): |
Common Symbols Used in Circuits: Battery: Two lines, one longer than the other. Light Bulb: A circle with a little squiggle inside. Switch A line that opens or closes the circuit. Resistor: A zigzag line that slows down the flow of electricity. Drawing Circuit Diagrams: Use the symbols to show how the parts are connected. Make sure the connections match the way the circuit is built. Use PHET simulation to create a simple circuit. | _________________________________ |
Elements, Compounds & Mixtures:
Element: A pure substance that cannot be broken down into simpler substances.
Compound: A substance formed from two or more elements combined in a fixed ratio.
Mixture: A combination of two or more substances where each retains its properties.
Changes:
Physical Change: A change where no new substance is formed (e.g., melting, dissolving).
Chemical Change: A transformation that produces one or more new substances (e.g., rusting, combustion).
Energy Types:
Kinetic Energy: Energy of moving objects.
Potential Energy: Stored energy based on position (e.g., gravitational, chemical, elastic).
Heat, Light, Sound, and Electric Energy are forms of energy with various sources and applications.
Electricity:
Current Electricity: Flow of electric charges through conductors.
Simple Circuits: Composed of an energy source (e.g., battery), energy user (e.g., light bulb), and wires.
Periodic Table:
Learn the first 20 elements, including their properties to understand basic chemistry.
Science Study Notes
Elements, Compounds &; Mixtures, Chemical &; Physical Changes, Energy
______________________________________________________________________________
Meanings:
Element: A substance that cannot be broken down into simpler substances by chemical means.
Compound: A substance made up of two or more different chemical elements combined into a fixed ratio.
Mixture: A substance made by mixing other substances.
Physical Change:
A change in which no new substance is formed
Can be a change in shape, expansion & contraction, change of state, and mixing
Forced applied to break, bend, stretch, crush, twist, or compress an object
Chemical Change:
A new substance is formed
We can determine if a chemical change has occurred by:
A permanent colour change
A gas (Bubbles) is given off
A change in temperature
The process of rearranging atoms to form new substances is known as a chemical reaction. (MEANING OF CHEMICAL CHANGE)
Changing Of States:
If enough heat is applied to a substance then the expansion will take place but also the substance will change states.
A solid can change to a liquid – melting – or from a liquid to a gas – evaporation.
If enough cooling is applied to a substance then contraction will take place but also the substance will change states.
A gas can change to a liquid – condensation – or from a liquid to a solid freezing/solidification.
Some substances can change directly from solid to gas - sublimation – or from a gas to a solid – deposition.
What is Energy/Energy Types:
Energy is the force that causes things to move
Energy exist in everything (It CANNOT be destroyed)
Energy cannot be seen or weighed, but it can be measured (Joules)
The type of forms of energy include:
Kinetic Energy: The energy of movement – anything that moves has kinetic energy. The faster the object the higher the amount of kinetic energy.
Heat Energy: From the sun, fire, chemical reactions, electrical devices, and even from body heat (human/animal). Heat can warm, dry, melt, and make hot air balloons rise (When you yawn heat energy is produced)
Light Energy: From sun, light globes, fires, animals (glow worms)
Sound Energy: Vibrations from moving air. Sound from voice, instruments, cars, and power tools
Electricity Energy: From power stations, solar cells, batteries, and lightning. Electrical energy powers all electrical devices such as TVs, laptops, mobile phones, and cooking devices.
Energy Calculation:
1 KJ = 1000 J
1MJ = 100000 J
Stored Energy = Potential Energy
Types Of Potential Energy:
Many objects have stored energy (AKA- Potential Energy)
Types of potential energy include:
Gravitational Potential Energy: Stored in an object when it is above the ground. The higher the object the greater the Gravitational Potential Energy.
Chemical Energy: Energy stored in substances such as food.
Elastic Potential Energy: Energy stored in a stretched or squashed spring. Can also be found in elastic bands (elastic potential energy). This energy gets released when the elastic band is let go.
Nuclear Energy: Stored inside atoms that make up all matter. Nuclear energy is released in nuclear power plants or when bombs explode and inside the sun.
Types Of Energy Transfer:
Heat Transfer – Heat energy from a heater can be transferred from the heater to you. If you stand in front of a fire, you will warm up and start to get hot. Heat energy can be transferred in three ways.
Conduction – Occurs between two objects that come into contact with each other. Heat transfers from the hotter object to the cooler one. This occurs until they are at the same temperature.
Convection – Heat travels through liquids and gases – Heat rises, making it hotter near the ceiling, compared to the floor. Convection spreads heat from ducted heating vents (air con) through the rooms of the house.
Radiation – Heat radiates (spreads outwards) from a hot object. Radiant heat is transferred as a wave that travels through air and space.
Electric Charge:
Atoms are the tiny building blocks that make up everything around us. They are made of three parts:
Protons: Positive (+) particles in the middle (nucleus) of the atom.
Neutrons: Neutral (no charge) particles also in the nucleus.
Electrons: Negative (-) particles that move around the outside of the atom.
How Do Ions Form?
Atoms can gain or lose electrons.
Losing electrons makes the atom positively charged, forming a positive ion – Known as a Cation.
Gaining electrons makes the atom negatively charged, forming a negative ion – Known as an Anion.
Neutral vs. Charged Atoms: A neutral atom has the same number of protons and electrons.
Ions have different numbers of protons and electrons, which gives them a charge.
Principle Of Conservation Of Energy:
Energy can neither be created nor destroyed, it only changes forms (e.g. kinetic and potential energy). EXAMPLE = When you turn on a light switch for a light bulb it goes from electrical energy to light energy, and thermal energy.
Current Electricity:
Current electricity is when electric charges (electrons) flow through a wire.
The electrons move from a place with more charge to a place with less charge.
When the electrons flow through different devices, they can:
Make light bulbs glow.
Turn motors.
Produce heat in devices like toasters.
Simple Electrical Circuits:
An electric circuit is a pathway that lets electricity flow.
Parts of a Simple Circuit:
Energy Source: This is like a battery, which pushes the electrons around.
Energy User: This could be a light bulb or a motor, which uses electricity.
Wires: These connect everything and let the electricity flow.
Open vs. Closed Circuits:
Closed Circuit: The electricity can flow all the way around.
Open Circuit: There is a break, so the electricity flow stops.
Periodic Table: (Learn the first 20 Elements)
First 20 Elements and their properties:
Hydrogen: colourless, odourless, tasteless, flammable.
Helium: colourless, odourless.
Lithium: soft, silvery metal.
Beryllium: silvery-white, lustrous, soft metal.
Boron: light, flammable, tough.
Carbon: both hard and soft
Nitrogen: colourless, odourless, tasteless.
Oxygen: colourless, odourless, higher density than air
Fluorine: pale yellow, diatomic, flammable
Neon: colourless, tasteless, odourless
Sodium: soft metal, malleable
Magnesium: light, silvery-white and fairly tough metal
Aluminum: silvery-white metal, light, low density
Silicon: very brittle, metallic luster (metal like appearance)
Phosphorus: waxy white solid, when pure is colourless and transparent
Sulfur: tasteless, odourless, brittle, pale yellow
Chlorine: greenish yellow, moderately soluble
Argon: colourless, odourless, nonflammable
Potassium: soft and white with a silvery lustre
Calcium: i wanna die rn omdsilvery-white metallic, ductile and malleable.
Lattice Structures:
There are 7 different lattice structures
Lattice structures are three-dimensional arrangements of ions or atoms in many different materials and solids.
Lattices structures are composed of one or more repeating unit cells
Particle Models:
Solids: The atoms of a solid are firmly packed together and vibrate.
Liquids:The atoms of a liquid are more freely distributed compared to solids.
Gases:The atoms of a gasses are extremely free and do not touch.
Energy Efficiency:
Energy efficiency is the use of less energy to perform the same tasks. For example, heating a room with the windows open uses a lot of energy because the warm air escapes through the windows. A way you can save energy is by:
Solar panels
Energy saving light bulbs
Installing a heat pump
Etc
Properties of:
Metals | Non-Metals | Metalloids |
|
|
|
Circuit Components: | Circuit Components (Image): |
Common Symbols Used in Circuits: Battery: Two lines, one longer than the other. Light Bulb: A circle with a little squiggle inside. Switch A line that opens or closes the circuit. Resistor: A zigzag line that slows down the flow of electricity. Drawing Circuit Diagrams: Use the symbols to show how the parts are connected. Make sure the connections match the way the circuit is built. Use PHET simulation to create a simple circuit. | _________________________________ |
Elements, Compounds & Mixtures:
Element: A pure substance that cannot be broken down into simpler substances.
Compound: A substance formed from two or more elements combined in a fixed ratio.
Mixture: A combination of two or more substances where each retains its properties.
Changes:
Physical Change: A change where no new substance is formed (e.g., melting, dissolving).
Chemical Change: A transformation that produces one or more new substances (e.g., rusting, combustion).
Energy Types:
Kinetic Energy: Energy of moving objects.
Potential Energy: Stored energy based on position (e.g., gravitational, chemical, elastic).
Heat, Light, Sound, and Electric Energy are forms of energy with various sources and applications.
Electricity:
Current Electricity: Flow of electric charges through conductors.
Simple Circuits: Composed of an energy source (e.g., battery), energy user (e.g., light bulb), and wires.
Periodic Table:
Learn the first 20 elements, including their properties to understand basic chemistry.
