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Mick Doyle's Resource Shop

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Over the last five years I have found the best way to stimulate learning is through engaging lessons. Lessons which apply scientific content to unusual, topical or popular scenarios. I currently have a range of premium and free resources to look through. I will continue to upload these resources as and when I can. Feel free to review, tweet or contact me regarding these resources or for ideas on current topics you are struggling to make engaging.

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Over the last five years I have found the best way to stimulate learning is through engaging lessons. Lessons which apply scientific content to unusual, topical or popular scenarios. I currently have a range of premium and free resources to look through. I will continue to upload these resources as and when I can. Feel free to review, tweet or contact me regarding these resources or for ideas on current topics you are struggling to make engaging.
Perception Gibson's Direct Theory of Perception
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Perception Gibson's Direct Theory of Perception

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Students are introduced to the odd thought of experiment of whether a baby would walk off a cliff or would be able to perceive a large fall. Students then asked how they would investigate… quickly you will introduce Gibson & Gibson’s Cliff edge experiment! This resource includes two lessons The first lesson introduces students to the main concepts of the theory. In the second lesson students are given a summary of the theoy and asked to write questions that would allow other students to find the answers from the sheet (Found at the end of the PowerPoint). Students are then introduced to three evaluation PEC points and asked to complete a table. An extension is included involving a series of exam quesitons.
Change of States: modelling particles
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Change of States: modelling particles

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KS3 introduction to changes of state. Through a range of kinaesthetic activities (such as describe-draw-show tasks and role plays) students are helped through an explanation of each process which leads to one state of matter changing to another.
Expansion of liquids: Galileo's Thermometer
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Expansion of liquids: Galileo's Thermometer

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Students complete an end of topic solids, liquids and gases spelling test. Using some simple equipment students plan a simple thermometer that could test different temperatures. Students finish the topic by answering levelled questions related to the expansion and contraction of liquids.
Indicators: Sour or Soapy?
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Indicators: Sour or Soapy?

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Students are introduced to the problem of determining which substances are acidic or alkaline in nature. Students complete simple litmus tests on a variety of household substances to determine the strengths and limitations of litmus paper as an indicator.
Carbonate reactions: The Broken Washing Machine
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Carbonate reactions: The Broken Washing Machine

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Students are introduced to a fictional granny who's washing machine has broken down. Through the discussion of simple evidence students are made aware of hard water and the development of lime-scale. Students design an experiment that demonstrates how acid can be used to breakdown and remove lime-scale from washing machine parts and reveals to them the products of such acid-carbonate reactions. Students complete a range of levelled questions to consolidate their knowledge.
Testing Acid rain
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Testing Acid rain

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Students are introduced to the environmental effects of acid rain within a community. Teacher burns sulphur in a gas jar of water and universal indicator to demonstrate acid rain in a jar. Students use a series of disguised buffer solutions and pH probes to collect enough data to discover which areas produce the lowest pH water samples. After the teacher demonstrates the production of carbonic acid and sulphuric acid students use pH probes to investigate different samples of water collected in the local environment (buffer solutions). Students use their results to identify which area has the lowest pH and begin to consider explanations for these findings.
Rock Types: What is Our Crust Made from?
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Rock Types: What is Our Crust Made from?

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Students are introduced to the idea of classification through organising various television programmes into their own chosen groups. Students in groups formulate their own tests they could carry out using a series of simple equipment to determine similarities and differences between rock samples. Eventually using their results to form rules that distinguish igneous, sedimentary and metamorphic rock types.
Granny's sweet tea: What factors affect solubility?
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Granny's sweet tea: What factors affect solubility?

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The remaining teeth of Granny W are pretty darn sweet! Can students help her decide on how to make the sweest tea possible using their understanding of solubility from the Five S's treasure hunt lesson? (I hope they can). After using a model of rice and peas to demonstrate solvents, solutes, solution and saturation students are introduced to the scenario. Students are split into six groups and given information packs related to one of three experiments (two groups for each experiment). Students will have an A3 poster style planning sheet to plan and complete an experiment to test whether: -Water has a saturation point? -Temperature of the solvent affects solubility of the solute? -Surface area of the sugar affects solubility? Students complete their posters and share their findings to the class.
Sedimentary rock formation: Making fossils!
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Sedimentary rock formation: Making fossils!

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Students are introduced to some evidence related to a winged dinosaur. Using this evidence to provoke questions students are introduced to the formation of sedimentary rocks and how this type of rock can occasionally lead to the formation of fossils. Students produce their own fossils using Plaster of Paris and evaluate their model.
Seawater clean-up: Using Evaporation to separate salt from Water
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Seawater clean-up: Using Evaporation to separate salt from Water

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Students are asked to think about all of the chemicals and substances inside the oceans of the Earth. After probably getting a few answers like "fish" students should move onto ideas such as salt, sand, and pollutants. Students recap the idea of filtration to remove insoluble "garbage islands" from the sea and are then introduced to the idea of evaporation to remove the salt. The use of producing fresh water from brine as well as salt is discussed. After completing a class risk assessment, students complete a practical experiment. Evaporating salt from "seawater" in an evaporating dish. Students write their conclusion and then improve using expert language.
Natural indicators: Can red cabbage be used as an indicator?
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Natural indicators: Can red cabbage be used as an indicator?

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Students are introduced to Robert Boyle's observations of Roses changing colour in different chemicals. Students test the idea of preparing a natural substance to test acids and alkalis by planning an experiment that prepares red cabbage as an indicator. Student complete a risk assessment and design a procedure for their experiment. Higher level students have the chance to evaluate their indicator in terms of effectiveness.
Group I metals: What caused the factory fire?
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Group I metals: What caused the factory fire?

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Students are introduced to a fictional scenario where fireman make a factory fire worse by adding water. Students produce their own theories from their own knowledge to suggest what could have caused the accident. Through teacher demonstration students are introduced to the alkali metals and complete a summary table that contrasts physical appearances and reactivity. Students write a report to the fire brigade suggesting how alkali metals in the factory could have made the fire worse.
Compounds and Molecules: Pain Relief!
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Compounds and Molecules: Pain Relief!

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Students are introduced to the pain reliever 'Entonox' a gas made from molecules comprised of nitrogen and oxygen. Students have ten minutes to build a moli-model and read an information sheet related to a compound of nitrogen and oxygen to see if it would be suitable for pain relief. Once students have completed three models they come to a conclusion of which gas would be most suitable: nitrogen monoxide, dinitrogen monoxide or nitrogen dioxide. Higher level students can be introduced to coefficients and subscripted numbers in relation to symbol formulae.
Sieving for gold! Introduction to filtration
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Sieving for gold! Introduction to filtration

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After a brief introduction to the Gold rush of 1849 students are introduced to the new topic of separating techniques. One solubility and insolubility are introduced students sieve for gold using a mixture of coffee granules and gold glitter. After completing the filtration experiments students draw a cartoon strip of their method and findings.
Simple distillation: Have I been poisoned?
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Simple distillation: Have I been poisoned?

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Students assist Doctor Gregory House M.D in diagnosing a patient of an unknown illness. Students use the diagnosis cards to discuss which disease or disorder the patient is suffering from. Students discover that the patient must be poisoned with arsenic, Oooo-eeer! Students learn about Simple Distillation equipment through a poster relay task. After the teacher discusses the explanation of removing soluble solutes the students complete a worksheet demonstrating their understanding.
Neutralisation: Acid Spill!
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Neutralisation: Acid Spill!

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After a devastating (fictional) acid spill students are introduced to the clean-up crew. Students use their knowledge of acids and alkalis to explain what method of clean-up would be most appropriate and investigate why a white solid seems to appear after the clean-up. Students use a simple experiment to prove the products of an acid-base reaction.
Disney's Up! Expansion and Contraction
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Disney's Up! Expansion and Contraction

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Russell the Wilderness Explorer wants to earn his expansion and contraction badge, can you help? Students become adventure explorers and earn badges by defining key terms from earlier on in the unit. Students watch classic demonstrations (could be completed as class experiments) and video clips from the movie to help them explain why particles expand when heated and contract during cooling. Higher students are introduced to the idea of density before answering and evaluating an assessed question. I used this lesson very successfully in an Ofsted observation. Students find this lesson incredibly engaging- I thought I'd share this resource for free due to the Disney copy right issues etc.
The Mole (topic 3 AQA Chemsitry)
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The Mole (topic 3 AQA Chemsitry)

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This lesson is a free resource from my quantitative chemistry SOW avalaible from my shop. All resources include a blast from the past recall starter, PowerPoints, resources, Higher tier and Foundation learning outcomes, practical experiment instructions and technician notes and exam practice with model answers.