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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.
Climate change and the greenhouse effect
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Climate change and the greenhouse effect

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Each lesson includes a ‘blast from the past quiz’, a range of activities and an AFL task that relates to their progress. This lesson is part of the Environmental Chemistry unit targeted at Year 8s. Students are introduced to the Titans of the media who support and refute ‘climate change’. Students are introduced to the scientific method. Students use video clips and teacher led activities to learn about the greenhouse effect. Students apply their knowledge by writing a script and performing a voice over for the trailer of a leonardo decaprio documentary trailer.
Atomic Structure: Can Scientists Make An Atom?
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Atomic Structure: Can Scientists Make An Atom?

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A KS3 introduction to the structure of the atom designed to challenge higher level students (However this lesson could be transferable to lower KS4 classes). Students are introduced to the large hadron collider and compare it to the particle accelerator Tony Stark creates in Iron man 2. Students use a range of materials to create their own atomic model of an atom using the rules learnt from the previous lesson. Students evaluate their own model in reference to its strengths and limitations. This introduction will allow students to further discuss ideas of compounds, bonding and reactivity in a far higher level in future lessons.
GCSE psychology skills: Stanford prison experiment
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GCSE psychology skills: Stanford prison experiment

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This resource contains two lessons used to begin the GCSE AQA course. Using the SPE as an example, the lessons cover the skills needed to describe and evaluate a study. Lesson 1: Focuses on reading academically. Students complete a comprehension task where meta-cognition skills are demonstrated by the teacher. Students watch a short video related to the SPE and write-up the main findings. Lesson 2: Introduces the value of evaluation. Students complete a range of tasks, including a living graph, in which students can practice verbalising the strengths and weaknesses of an experiment. This lesson follows the Psychology taster lesson.
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.
Eating behaviour: Neural  mechanisms (Psychology AQA A)
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Eating behaviour: Neural mechanisms (Psychology AQA A)

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Students are given a picture of biological systems and asked to consider the range of factors the body regulates e.g. pH of blood, sugar levels, temperature etc Students are re-introduced to homoeostasis and negative feedback before completing a diagram related to the negative feedback loop of hunger and satiation. Students use the cat book edition 4 to consider evaluative points and complete A3 summary sheet
Balancing Equations using a methane bottle rocket
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Balancing Equations using a methane bottle rocket

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-Students remind themselves of the indicators of a chemical reactions. -The powerpoint runs through the definitions of reactants, products, and the conservation of mass. -Teacher demos magnesium ribbon burning in oxygen to form magnesium oxide, using this to remind students of word equations. -Combustion is used as an example to explain balancing symbol equations. Students could use moli-mods at this point. -Teacher uses the risk assessment/instruction sheet to make a methane (below is a link to my twitter account demonstrated the rocket) rocket before students complete some more questions from the PowerPoint below is a link to my twitter account demonstrating the rocket in a science club https://quik.gopro.com/v/oxR1vLo0Dz/ https://twitter.com/neatguy_watson?lang=en
Moles: A practical demonstration: Edexcel new specification SC9
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Moles: A practical demonstration: Edexcel new specification SC9

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Students are introduced to the idea that moles are an amount of things similar to pairs and dozen. Using the PowerPoint student are introduced to Avogadro's constant and that a relative atomic mass in grams equals one mole of an atom. Students complete a experiment in which the rotate around the room to weigh different amounts of substances in beakers to calculate how many moles are present. Students use the mass of the beaker and the symbol formula (written on the side) to calculate the mass/mmr. Students practice rearranging the calculation.
Acid base reactions
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Acid base reactions

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Students complete a six mark question to remind themselves about ionic bonds, inter-molecular forces and molecules. Students are introduced to the common acids and base formulae. Students run through a range of word equation and formula equation tasks using the worksheet and sorting cards. The formula crib sheet supplements this resource.
Combustion of fuels: Forest fires
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Combustion of fuels: Forest fires

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Each lesson includes a ‘blast from the past quiz’, a range of activities and an AFL task that relates to their progress. This lesson is part of the Environmental Chemistry unit targeted at Year 8s. Students are introduced to an inquiry photograph regarding forest fires. Students use the scenario built up from a video clip that allow the students to investigate what causes combustion. Students are introduced to the evidence that oxygen is an reactant, carbon dioxide is a product. Students write a report to the firefighter with their findings and possible methods of putting the fire out.
Crude oil and distillation
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Crude oil and distillation

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Each lesson includes a ‘blast from the past quiz’, a range of activities and an AFL task that relates to their progress. This lesson is part of the Environmental Chemistry unit targeted at Year 8s. Students compete a discussion and inquiry question regarding tan oil. Students complete a range of tasks that introduces them to the mixture crude oil and links the theory of distillation to separation techniques (from Year 7).
The Earth's atmosphere and it's evolution
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The Earth's atmosphere and it's evolution

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Each lesson includes a ‘blast from the past quiz’, a range of activities and an AFL task that relates to their progress. This lesson is part of the Environmental Chemistry unit targeted at Year 8s. Students are introduced to how scientists investigate the Earth’s early atmosphere. They are introduced with the problem of not having empirical evidence (that cannot be directly observed). Students join Doctor who ona journey back to the beginning of the Earth’s early atmosphere. Students observe directly how the Earth’s atmosphere changes and plot the changes on a line graph that overlays oxygen, carbon dioxide and nitrogen changes. Students finish the lesson with an introduciton into the modern day atmosphere.
Eating behaviour: Evolutionary explanations to eating (Psychology AQA A)
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Eating behaviour: Evolutionary explanations to eating (Psychology AQA A)

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students are reminded of the evolutionary approach and are asked to explain three odd behaviours or biological phenotypes e.g. why do peacocks have large tails? Why do we sneeze? Why do hostages develop strong positive feelings for their capturer? Students then take part in a class blind folded taste test: Sugar, honey, chilli, salt, PTC, crisps ensuring there are no allergies. this should provoke discussion. Students use their text book, carousel work sheets and the PowerPoint to fill in their evaluation sheet. The end of the lesson should be used to discuss what they have found out.
Changes of Momentum (Edexcel Physics Legacy)
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Changes of Momentum (Edexcel Physics Legacy)

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Students recap their understanding of momentum using an example of a baseball player, and a person firing a gun. Students are introduced to the idea of increase the time taken to stop can decrease the amount of force. Students use this idea to discuss bicycle helmets and air bags. Students use their new understanding to complete a summary poster.
Eating behaviour: Early Diets (Psychology AQA A new spec)
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Eating behaviour: Early Diets (Psychology AQA A new spec)

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Students are introduced to the course content. Students complete a quiz in which they complete a likert scale as a class based upon pictures of food. This often provokes discussion around high fat content, cultural, learnt and possibly evolutionary explanations to their personal preferences. Teacher runs through the AO1 points related towards Neophobia before students complete an exam question.
Christmas Revision: Choosing the Right food for Santa's Reindeers
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Christmas Revision: Choosing the Right food for Santa's Reindeers

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Students identify the adaptations of a magical reindeer and remind themselves of the GPE and Power equations to calculate how many calories each reindeer would need to fuel their journey on christmas eve. Students burn a range of food (including dried carrots) to see how much energy is stored in each and to extrapolate up how many carrots (in grams) would the reindeers need to eat. Ho Ho Ho.
Genetic explanations of Anorexia
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Genetic explanations of Anorexia

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Students complete a 6 mark question related to outlining the clinical symptoms of anorexia nervosa and compare it to a model answer. Divide an A3 piece of paper into three and pass it to three groups in the class. Students use the textbook to write brief descriptions about relative theories and studies. After running through the PowerPoint students complete an applied question related to the genetic factors and compare it to a model answer.