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DrMeg Morinho's Shop

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Hello! Welcome to my shop. Please take a moment to browse. You’ll find high quality biology resources that are fun, engaging and pupil-led. As a teacher I've implemented the things I've always wanted in my lessons, into my resources. That is, resources of excellent quality that truly impact learning. As we know, efficiency is paramount therefore my full-lessons incorporate mark-schemes too, all ready to go! Leaving you with more time to focus on being present for your students.

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Hello! Welcome to my shop. Please take a moment to browse. You’ll find high quality biology resources that are fun, engaging and pupil-led. As a teacher I've implemented the things I've always wanted in my lessons, into my resources. That is, resources of excellent quality that truly impact learning. As we know, efficiency is paramount therefore my full-lessons incorporate mark-schemes too, all ready to go! Leaving you with more time to focus on being present for your students.
7.1 Haemoglobin NEW Year 12 biology specification
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7.1 Haemoglobin NEW Year 12 biology specification

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This lesson plan/PowerPoint presentation includes all the activities (in one file!) to achieve the following learning objectives: 1) Describe the structure and function of haemoglobins: Activity 1: What do you already know about haemoglobin? - opportunity for group discussion and linking previous Biological Molecules topic on Proteins, differentiation included as clues are provided to help stimulate discussion; recap of proteins; Activity 2: summarise the four structural levels of proteins (answers to the activity are provided in the PowerPoint); Activity 3: watch the video and answer the question "Why is haemoglobin particularly suited to the transport of oxygen?" (answers to the activity are provided). 2) Explain the differences between haemoglobins in different organisms and the reasons for these differences: Activity 2: summarise the four structural levels of proteins (answers to the activity are provided). 3) Explain what is meant by loading and unloading of oxygen: Activity 3: as above for this activity; Activity 4: Consider the concentrations of gases and the affinity for oxygen at different regions of the body to complete the table - this task can be differentiated by giving 50/50 options, removing these options, or partially completing the table (answers to the activity are provided) Plenary activity - multiple choice quiz (AfL).
7.2 Transport of oxygen by haemoglobin NEW Year 12 Biology specification
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7.2 Transport of oxygen by haemoglobin NEW Year 12 Biology specification

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This lesson plan/presentation includes all the activities (including student worksheets/mark schemes/homework tasks and assessment guidance) required to achieve the following learning objectives: 1) Describe the nature of an oxygen dissociation curve - Activity 1: to complete key definitions using a link to a video resource that will support students to complete the definitions; Activity 2: competition to be completed in groups to collect as much information as possible within a 60 second period (resource provided in the PowerPoint for printing); Activity 3: annotation of the pupil worksheet (resource provided in the PowerPoint for printing) aims to consolidate the information from Activity 2; Exam Question with Mark Scheme (provided in the PowerPoint) 2) Explain the effect of carbon dioxide concentration on the curve and the reasons why - Activity 4: identifying the % saturation of oxygen in the tissues and in the lung on a graph (resource provided in the PowerPoint for printing); Exam Question with Mark Scheme (provided in the PowerPoint); an idea for a student homework activity looks to have students discuss the factors that affect the oxygen disassociation curve (pH, CO2 concentration, exercise and temperature) is outlined (information for assessing homework is provided in the PowerPoint). 3) Explain how the properties of the haemoglobins in different organisms relate to the environment and way of life of the organism concerned - Starter task: probes questions on the structure of haemoglobin in different species then puts this into context by considering the lugworm, the llama and small organisms (mice) with a higher metabolic rate.
B2.22 Investigating osmosis GCSE Biology
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B2.22 Investigating osmosis GCSE Biology

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Lesson Plan (PowerPoint) and activities to achieved the following learning objectives: 1) Investigate osmosis by collecting primary evidence 2) Use data to draw conclusions 3) Evaluate methods of data collection Differentiated tasks included. Exam question included in word.doc however formatting may be preferred by printing the relevant PowerPoint slide - answers included in the PowerPoint.
B2.21 Water Transport GCSE Biology
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B2.21 Water Transport GCSE Biology

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Lesson Plan (PowerPoint) and activities to achieve the following learning objectives: 1) Describe how root hair cells are adapted to take up water by osmosis 2) Define osmosis 3) Describe how water, glucose and mineral salts are transported through a plant 4) Explain how the loss of water vapour from the leaves drives transpiration Differentiated tasks included. Exam question included in word doc however formatting may be preferred by just printing the PowerPoint slide.
B2.18 Photosynthesis GCSE Biology Leaf structure and adaptations
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B2.18 Photosynthesis GCSE Biology Leaf structure and adaptations

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Simple student led lesson plan (PowerPoint) incorporating activities to achieve the following learning objectives on the adaptations of plants for photosynthesis: Last updated 14 September 2023 Recall the word equation for photosynthesis Describe the structure of the leaf Explain how the leaf is adapted for photosynthesis Differentiated activities included. Exam style questions included. Factors that affect the rate of photosynthesis Required GCSE Biology practical investigation
B2.17 Anaerobic Respiration GCSE Biology
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B2.17 Anaerobic Respiration GCSE Biology

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Lesson plan (PowerPoint) and activities to achieve the following learning objectives: 1) Recall that the process of anaerobic respiration releases less energy than aerobic respiration 2) Recall the word equation for anaerobic respiration 3) Explain why heart rate and breathing rate increase with exercise 4) Define excess post-exercise oxygen consumption or EPOC 5) Calculate heart rate, stroke volume and cardiac output, using the equation 6) Explain why, during vigorous exercise, muscle cells start to respire anaerobically 7) Explain why heart rate and breathing rate remain high after exercise Exam questions - answers included in the PowerPoint. Differentiated exercises included with challenge questions.
B2.15 Aerobic Respiration GCSE Biology
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B2.15 Aerobic Respiration GCSE Biology

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Lesson plan (Powerpoint) and activities to achieve the following learning objectives: 1) State the word equation for respiration 2) Describe diffusion of gases between the blood and respiring cells 3) Define diffusion 4) Explain how diffusion occurs in the lung for efficient gas exchange Differentiated tasks included with challenge questions. Practise exam questions. Answers to Exam Question included in the powerpoint.
B2.13 Enzymes and temperature GCSE Biology
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B2.13 Enzymes and temperature GCSE Biology

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Lesson plan (PowerPoint) and activities to achieve the following learning objectives: 1) State a hypothesis for testing the effects of temperature on enzyme activity 2) Justify a hypothesis using scientific knowledge of how enzymes work 3) Analyse data and draw conclusions from a pattern of results Model answers included for pupils to compare their hypotheses against and self-assess their own work. Answers to each activity is included in the powerpoint for peer or self assessment. Extension activities included.
B2.12 Enzymes GCSE Biology
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B2.12 Enzymes GCSE Biology

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Lesson plan (Presentation) and activities to achieve the following learning objectives: 1) Describe enzymes as biological catalysts 2) Demonstrate an understanding that enzymes catalyse chemical reactions occurring inside and outside living cells, including: a) DNA replication b) protein synthesis c) digestion Answers to the exam questions are included in the powerpoint for peer/self-assessment
B2.10 Protein Manufacture GCSE Biology
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B2.10 Protein Manufacture GCSE Biology

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Lesson plan (presentation) and activities to achieve the following objectives: 1) Describe the order of bases in a section of DNA decides the order of amino acids in a protein 2) Describe the stages of protein synthesis including transcription and translation 3) Explain how mutations at the DNA level can affect the protein produced
B2.9 Stem cells GCSE Biology
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B2.9 Stem cells GCSE Biology

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Lesson plan and presentation with activities included to achieve the following learning objectives: 1) Describe embryonic stem cells as undifferentiated cells - interactive mini-white board starter; definitions of totipotency and pluripotency 2) Identify the advantages, disadvantages and risks of cloning mammals - activity to use revision guide/textbook to identify applications of the technology, extension activity to describe the ethical issues involved for each 3) Evaluate the risks in adult and embryonic stem cell research - for versus against task where pupils must argue their reasoning Plenary task is a gap fill (slide in powerpoint - just print!) with a word bank that encompasses all three learning objectives above. Answers are provided in the presentation.
Section 2. Cells. 3.7 Mitosis NEW Year 12 Biology specification
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Section 2. Cells. 3.7 Mitosis NEW Year 12 Biology specification

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Lesson plan and presentation including activities to achieve the following learning objectives: 1) Describe what mitosis is (recall KS4 knowledge) - mini-white board starter task; labelling and annotation of mitosis diagram 2) State when DNA replication takes place and summarise all the different stages in mitotic division - knowledge checks; card sort; exam style questions 3) Explain the importance of mitosis - knowledge checks
Section 1. Biological Molecules. 1.5 Lipids NEW Year 12 biology specification
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Section 1. Biological Molecules. 1.5 Lipids NEW Year 12 biology specification

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Lesson plan and presentation with activities included to achieve the following learning objectives: 1) Outline the structure of triglycerides and phospholipids - drawing condensation and hydrolysis reactions 2) Link the structure of triglycerides and phospholipids to their functional properties - exam questions with answers included in the powerpoint for peer/self-assessment 3) Accurately plan and investigate the test for the presence of lipids - information on how to test for lipids in food
Section 1. Biological Molecules. 1.6 Proteins NEW Year 12 biology specification
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Section 1. Biological Molecules. 1.6 Proteins NEW Year 12 biology specification

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Lesson plan (presentation) with activities to achieve the following learning objectives: 1) Describe and carry out the test for proteins 2) Explain how amino acids are linked to form polypeptides 3) Summarise the four different levels of protein structure and link to bonding Practical method for testing proteins, exam-style question pack with mark-scheme included.
B2.8 Clones GCSE Biology
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B2.8 Clones GCSE Biology

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Lesson plan (presentation) and activities to achieve the following learning objectives: 1) Describe cloning as being an example of asexual reproduction 2) Describe the stages of cloning 3) Evaluate the advantages and disadvantages of cloning
B2.7 Mitosis and meiosis GCSE Biology
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B2.7 Mitosis and meiosis GCSE Biology

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Lesson plan (presentation) with activities to achieve the following learning objectives: 1) Describe the division of a cell by mitosis 2) Describe the division of a cell by meiosis 3) Compare and contrast the two types of cell division
B2.6 Genetic Engineering Year 11 Edexcel Biology
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B2.6 Genetic Engineering Year 11 Edexcel Biology

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Lesson plan (presentation) with activities to achieve the following learning objectives: 1) Describe the process of genetic engineering 2) Describe case studies of GMOs (e.g. golden rice and insulin) 3) Explain the ethical considerations of GMOs