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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.
Using pH to Solve a Crime
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Using pH to Solve a Crime

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Students are introduced to a fictional scenario applied to their school where a criminal has broken into the school allotment and stolen vegetables (outrageous!). After a quick crash course into the types of evidence a forensic scientist could collect from the scene, students carry out an analysis on soil samples from a range of suspects to determine the identity of the vegetable thief. Students write a letter/report to their headmaster explaining their findings.
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.
Earth's Structure: Can We Ever Go to the Centre of the Earth?
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Earth's Structure: Can We Ever Go to the Centre of the Earth?

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Well the answer is no... Students watch a small clip from the 2008 movie Journey to the Centre of the Earth. Students discuss what parts of the clip they believe to be true and false. Students are introduced to the structure of the Earth as we know it to be today and are asked to write a creative story describing a scientifically correct journey to the centre of the Earth using the level ladder.
Echoes: Does a Duck's Quack Echo?
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Echoes: Does a Duck's Quack Echo?

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Students challenge preconceptions by investigating the unusual question. Students develop a definition of an echo and use this knowledge to test how fast sound travels outside in the courtyard. Along with a series of sound clips, students use the evidence they have gathered to write a levelled question.
Introduction to saturation: Five S's Treasure hunt
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Introduction to saturation: Five S's Treasure hunt

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If you were wondering they are: Solute, solvent, solution, saturation and Solubility... Students start the lesson by thinking of as many scientific questions they ask about the picture that is on the board (a cup of tea). Students should be prompted to think of as many aspects of science they can apply to this quite simple picture... teacher could write answers on the board and praise legitimate ideas. Use the starter to discuss the idea of the five S's. Student complete a table during a treasure hunt that includes definitions and examples. Students discuss answers and watch video clip to reinforce their understanding. The teacher demonstrates saturation and conservation of mass by adding a spatula of sugar into a beaker of warm water on a weighing scales. Students complete the worksheet in any order they like to demonstrate their ability.
Rock Cycle: Where has the Sphinixs nose gone?
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Rock Cycle: Where has the Sphinixs nose gone?

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Student creatively theorise possible reasons to explain the Sphinix's damaged nose. After which students are introduced to weathering and erosion. Using this knowledge, as well as content from the rock types lessons, students can model James Hutton's rock cycle using a simple class practical experiment. Students observe, crush, heat and melt sugar cubes to represent different parts of the rock cycle.
Half life: What killed Alexander  Litvenenko?
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Half life: What killed Alexander Litvenenko?

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Students are introduced to Alexander Litvenenko and his "alleged" murder. Students are introduced to the idea of a half-life and how that rate can be used to calculate how long material has been decaying and analyzing material composition. Practical experiment: students use M&M sweets to draw a half life curve. by dropping M&M's and eating the sweets that land 'M' up (following lab safety of course) and plotting their findings. Repeating until they have none left. Students complete a worksheet to workout which material killed Alexander Litvenenko.
Evaluating indicators assessment
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Evaluating indicators assessment

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Students use their knowledge from the unit to compare a range of pH indicators in terms of effectiveness in identifying a range of pH in everyday household products. Students compare red cabbage indicator (prepared in a previous lesson), litmus paper, universal indicator solution and pH probes to decide which one is the most accurate and easy to use. Students have an opportunity to write an evaluation that can be levelled as part of an assessment.
Compounds: Coming together
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Compounds: Coming together

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Students are introduced to the difference between atoms and compounds through a comparison of a range of substances that include high levels of potassium. Student use this comparison to develop a definition for compounds. Students use their new knowledge to complete four mini- practical investigations to consolidate their learning.
Igneous Rock Formation: Can you make a new Island?
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Igneous Rock Formation: Can you make a new Island?

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Students are reminded of the features of igneous rock from last lesson. Students develop theories to explain why some igneous rock have larger crystals then other samples. Students test this theory with a simple experiment using Salol as a model for igneous rock cooling. Students complete a GCSE style mark question related to the formation of igneous rocks.
Jumping in Space: How Much Do You Mass?
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Jumping in Space: How Much Do You Mass?

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Students use their understanding of mass and weight to test how high they can jump on different planets. Using metre rulers, calculators and some enthusiasm students can multiply their average jump by the relative mass of each of the planets in the solar system. This lesson was pitched to a low ability class that needed an active way to practice their mathematics skills.
Comparing elements: How unique are the elements?
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Comparing elements: How unique are the elements?

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Can your students become element inspectors? After recapping the definition of an element from last lesson and independently completing the "spot the link" starter activity, students are introduced to the uniqueness and quirkiness of some of the elements from the periodic table. Students become elements inspectors by reading through the information packs in groups of four to become experts in one element: Nitrogen, chlorine, copper, arsenic, mercury and carbon. Students use their new found expertise to complete a row in a table. Students are reorganised into new groups containing an expert for each element. Students share their information to allow each students to complete their table. Students are introduced to proton number and atomic mass before completing a differentiated graph regarding the trends across a group. Students can evaluate or complete for homework.
Social influence Scheme of Work (AQA-A Psychology New Spec)
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Social influence Scheme of Work (AQA-A Psychology New Spec)

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A whole AS/Year 1 AQA A Scheme of Work related to Topic 1: social Influence. PowerPoints, Class tasks, Work sheets and end of topic test is included. The SOW is based around the AS/1 Complete companion Cardwell & Flanagan, L1: What is Conformity: Students re-enact Asch's famous study with an unknowing student from another class.. L2: Evaluation of Asch's study L3: Explaining conformity: Students complete a group cheat sheet on 1 of 4 different explanations of conformity and share. Emphasis of the duel processing model is made. L4: Stanford Prison experiment: students use articles and real footage to introduce the role of social roles. L5: Obedience: Independent work and real footage is used to gain insight into the procedure and findings of Milgram's study. L6: Essay: Students are introduced to writing extended essays using PEEL. Students re-assemble an essay that unfortunately been cut up into pieces... L7: variations of Milgram's study: Students are introduced to the effects of other situational factors and evaluate. L8: Explanations of Obedience: Agentic state and Legitimate Authority L9: Authoritarian Personality: Students complete the F-scale and are introduced to dispositional factors of obedience. L10: Resisting social influence L11: Locus of control L12 and 13: Students watch a copy of 12 angry men to illustrate concepts so far and introduce minority influence L14: Students complete a end of topic test. Model answers for self reflection are provided.
C3 topic 1: Water testing and Ion testing
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C3 topic 1: Water testing and Ion testing

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Three lessons are included which run through: Lesson 1 water testing: A reminder of Flame tests, and the introduction of cation precipitate tests. -Students complete a six mark question and summary table to remind themselves of C2 ion tests. -Students complete simple qualitative sodium hydroxide precipitate test with a number of metal cations in solution. Lesson 2 Qalitative test revision book: A reminder of anions. -Teacher could demo experiments from lesson 3 or explain using the PowerPoint slide -Students complete a booklet to summarise all tests learnt. Lesson 3: Students complete a circus of all experiments -test for halogens -test for sulfates -test for carbonate -flame test for cations -precipitate test for cations -Using these tests students solve a fictional (a ridiculous) murder.
KS3 Acids and Alkalis SOW
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KS3 Acids and Alkalis SOW

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KS3 scheme of work containing ten lessons equipped with lesson plans, PowerPoints, resources and tech notes. Lesson 1- How dangerous are acids? Lesson 2- Useful alkalis (indigestion experiment) Lesson 3- Indicators (testing different substances) Lesson 4- Natural indicators (red cabbage indicator) Lesson 5- Neutralisation (Forming a salt experiment) Lesson 6- Evaluating indicators (assessment) Lesson 7- Testing acid rain (using pH probes) Lesson 8- Using pH to solve a crime (soil sampling) Lesson 9- Higher: Acid bath murderer (concentration)
Metals: Are all metals the same?
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Metals: Are all metals the same?

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Student are introduced with a series of keywords that describe general properties of metals and non-metals which they organise into a Venn diagram to demonstrate their understanding. Students challenge these general properties by completing a table that highlights the unique properties of six different metals. Students use extracted information from the swapping posters to complete their table.