• BOS: http://syllabus.bos.nsw.edu.au/science/science-k10/content/968/
• WPS: Teaching context proposed by WPS teachers: 'All fired up' (or something)?

1. ST2-12MW Students identify that adding or removing heat causes a change of state between solids and liquids.
2. ST2-13MW Students identify the physical properties of natural and processed materials, and how these properties influence their use.

1. A change of state between solid and liquid can be caused by adding or removing heat. (ACSSU046)

1. STUDENTS: describe some everyday situations where solids and liquids change state by adding heat (heating) or removing heat (cooling)
2. CRITICAL & CREATIVE THINKING: predict and observe the effects of adding heat or removing heat on a variety of everyday solids and/or liquids, eg butter, chocolate and water CCT
3. describe how scientific knowledge about the effects of heating and cooling is used by people in their everyday life, eg the types of clothes worn, the packaging and preparation of food and everyday devices, eg freezers, irons or cooktops

2. Natural and processed materials have a range of physical properties which influence their use. (ACSSU074)

1. STUDENTS: observe the changes that occur in the physical properties of everyday materials when they are heated, cooled, bent, stretched, folded and twisted
2. LITERACY: observe and describe the structure of materials that can be seen with the naked eye and a magnifying glass, eg grains in bread, particles in chipboard or cork, threads within a fabric or fibres in paper
3. identify the properties of some natural and processed materials
4. describe how a range of common natural and processed materials are used in everyday life
5. CRITICAL & CREATIVE THINKING: generate ideas about how the physical properties of some natural and processed materials influence their use.

PLEASE READ AND VIEW THE FLIPPED CLASSROOM RESOURCES HERE BEFORE CONTINUING

When something feels hot, the molecules in that 'something' are moving very fast. When something feels cool, the molecules in that object aren’t moving quite so fast.

For example, when we are cold, we can jump up and down to get warmer. To help cool down, we can stay very still.

The human body has a variety of ways (senses) to detect energy.

• Your eyes perceive certain frequencies of electromagnetic waves as light.
• Your ears perceive certain frequencies of longitudinal waves as sound.
• Your skin, mouth and tongue can perceive thermal energy as hot or cold.

The amazing thing is that the human body detects how fast molecules are moving by how hot or cold something feels.

What a magnificent energy sensing instrument the human body is!

• Source What is heat? (Caltech)
• Source: Heat & Temperature
• Source: Jiggling|Heat & Jiggling

I will be using on-line simulation software for some experiments because using hot things in the classroom can be a risky business.

1. Describe some everyday situations where solids and liquids change state by adding heat (heating) or removing heat (cooling)
2. Predict and observe the effects of adding heat or removing heat on a variety of everyday solids and/or liquids, eg butter, chocolate and water CCT
3. Describe how scientific knowledge about the effects of heating and cooling is used by people in their everyday life, eg the types of clothes worn, the packaging and preparation of food and everyday devices, eg freezers, irons or cooktops

1. Observe and record the changes that occur in the physical properties of everyday materials when they are heated, cooled, bent, stretched, folded and twisted
2. Observe and describe the structure of materials that can be seen with the naked eye, a magnifying glass and other technologies
3. Identify the properties of some natural and processed materials
4. Describe how a range of common natural and processed materials are used in everyday life
5. Generate ideas about how the physical properties of some natural and processed materials influence their use.

• IF UNABLE TO ACCESS YOUTUBE VIDEO (requires Flash) TRY:How the human body senses hot and cold

The purpose of this simple experiment is for students to determine the relationship between temperature and speed of molecules in a liquid.

Students will use water & food dye to discover more about 'jiggling' and heat: Source: http://www.coffeecupsandcrayons.com/simple-heat-experiment/

Molecules move faster when they are warmer and slower when they are colder. The drop of food colouring spreads out fastest in the hot water because the molecules are moving the fastest of the three jars. The food coloring spreads out fairly quickly in room temperature water and slowest in the cold water. Eventually the food coloring spreads throughout all three jars.

During the food colour experiment - you may notice condensation: https://www.youtube.com/watch?v=_QH52gQy0Ac http://viewpure.com/_QH52gQy0Ac

Explain the importance and consequences of heat produced by rubbing things together.

1. Rubbing your hands to make them warm:

Students should find that hands get hot: even hotter when rubbed together quickly.

2. Put two identical coins on a rug or on a table cloth:

• First, place one finger on a coin and rub the coins forwards and backwards on the carpet.

^Instructions ^ Results^

Students should find that the coin that was rubbed on the cloth/carpet feels hotter.

3. Think of examples of rubbing things causing heat, e.g. tires on the road, making a fire with a bow, water-skiing with bare feet

The experiments should show that:

1. Things heat up when they are rubbed together.
2. Rubbing things that feel rough get hotter than rubbing things that feel smooth.

Students will investigate state and temperature changes by creating Heat Sensitive Worms using Sodium alginate polymers. It immediately changes from a liquid to a solid the moment it touches the Worm Activator solution.

The worms change color due to the special thermochromic dye in the Heat Sensitive Worm Goo. Thermochromic means that a color change (chromic) occurs in accordance with temperature (thermo) of the worm goo.

The sodium alginate (Worm Goo) and activator is a safe, low cost chemical used as a thickening agent in fruit pies and ice-cream. Calcium (chalk) is used as an activator. Food-grade alginate and calcium can be purchased locally, easily and cheaply.

In your class/group discussions, describe some everyday situations where solids and liquids change state by adding heat (heating) or removing heat (cooling)

Complete the on-line interactive tasks to predict, observe and record the effects of adding heat or removing heat on a variety of everyday solids and/or liquids, eg butter, chocolate and water

1. Drag chocolate into the glass beaker and then press buttons to heat, cool and test:

2. Drag candle wax into the glass beaker and then press buttons to heat, cool and test:

3. Drag aluminium can into the glass beaker and then press buttons to heat, cool and test:

4. Drag butter into the glass beaker and then press buttons to heat, cool and test:

5. Drag lime lolly into the glass beaker and then press buttons to heat, cool and test:

References and optional additional activities:

• Heating chocolate: http://www.bbc.co.uk/schools/scienceclips/ages/8_9/solid_liquids.shtml
• Changing State: http://www.bbc.co.uk/schools/scienceclips/ages/9_10/changing_state.shtml
• What's Next: http://www.bbc.co.uk/schools/scienceclips/ages/9_10/changing_state_whatnext.shtml
• Material: http://www.bbc.co.uk/bitesize/ks2/science/materials/

Students will observe, describe and compare materials using the naked eye and one or more instruments such as a 'thermographic' (infrared) webcam, microscope or similar.

A thermographic camera (also called an infrared camera or thermal imaging camera) is a device that forms an image using infrared radiation compared with a standard webcam/camera, which forms an image using visible light.

Figure 1. Thermographic Images - Show how a ball heats up after being bounced - Source: Caltech

You may think these infrared images of a boy holding a ball look unusual, but this is the way snakes normally see things!

To observe and identify properties of some natural and processed materials.

Cheap infrared cameras can also be used to observe materials in ways that cannot be seen using visible light (see images on right).

Place a playing card into an envelope (suggest a spade or club suit which is easily identifiable - a three of spades for example). Before sealing the envelope, make sure that the value of the card cannot be read in visible light but that the value is visible when held in front of an infrared webcam (X-Ray vision using infrared webcam). Choose a different envelope if necessary. This worked well in tests using a red birthday card envelope and a simple brown paper envelope. The image at right shows a playing card in an envelope when viewed via standard versus infrared webcam:

The only difference between the above images is that the image on the right was taken using a $10 infrared sensitive webcam.

These are actual images of the cards in the envelope (above) - No changes, tricks or editing

Set up one or more infrared webcams that students may use. Students are told that there are a number of items concealed in envelopes. They must use a scientific instrument to find a way to identify the items without opening the envelope. The teacher may provide hints but ideally leave it to the students to discover a solution. Students record their results in a table:

Example Infrared Investigation:

See WPS WIKI: Infrared Page for lots more ideas about investigating heat using infrared and other properties of light

• IF UNABLE TO ACCESS YOUTUBE VIDEO (requires Flash) TRY:How snakes see using hot and cold (infrared)

Have the above experiments changed the way you think about heat?

1. I visited museums and/or sites on the Internet like
   • Steve Spangler Science
   • Europen Journal for Science Teachers
   • K-6 Science Lessons

1. I found out about the modern science of heat compared with old/traditional ideas about heat.

using Google sheets or similar).

1. I asked people to fill in 'My Keep Cool Survey', including their age and occupation, to find out what people think about what makes things hot or cold.
2. I perfomed experiments then analysed and discussed the results.
3. I created a survey (data organised in rows + columns on a sheet of paper or an on-line survey
4. I used a maths formula/software that I found on the Internet to compare/graph my results.

Scientific knowledge about the effects of heating and cooling is used by people in their everyday life, eg the types of clothes worn, the packaging and preparation of food and everyday devices, eg freezers, irons or cooktops.

Create a simple survey to find out what people think about the properties of materials that make those materials feel hot or cold to touch.

Discuss the results of your 'Properties of Materials Survey' results in the section below.

My results for Table 1 (above) show that most adults and students (66%) think that metal is colder than wood. This confirms the misconceptions that most people may have (as described in Video 1. above).

*All data from Table 1 was evaluated and graphed using Google Sheets formulas.

The principle of science, the definition, almost, is the following:

When we say we are a pile of atoms, we do not mean we are merely a pile of atoms, because a pile of atoms which is not repeated from one to the other might well have the possibilities which you see before you in the mirror.

Source: http://www.feynmanlectures.caltech.edu/I_01.html

Research around the world indicates that at the end of their schooling, large numbers of students still hold many ideas, or conceptions, which are not in accord with the way that scientists understand our world. Here are some guidelines for teaching science at school.

A good scientific guide for students: What is heat

The scientific method is one particular way to ask and answer scientific questions by making observations and doing experiments. Some people argue that there is no such thing as 'The Scientific Method' - make up your own mind:

The steps of the scientific method are to:

• Ask a Question
• Do Background Research
• Construct a Hypothesis
• Test Your Hypothesis by Doing an Experiment
• Record your Observations in a Table of Results
• Analyse the Data and Draw a Conclusion
• Communicate Your Results
• Source: Steps of the scientific method

No matter what your method is, it is important for your experiment to be a fair test:

A fair test means that you should set up your experiment so that everything is fair.

• You should only change one thing at a time, and note down the results.
• If you change more than one thing at a time, you can not tell which thing (variable) it was that affected the results.

Here is the sample rubric: Heat Rubric

Go to the following page to see the Engineering task referred to in the above rubric

Engineering task