Section 2. Cells. 3.2 The Electron Microscope Year 12 AQA Biology This lesson plan/presentation provides you with a high quality lesson that includes all the necessary activities and resources for the following learning objectives: 1) Explain how electron microscopes work - engaging starter activity where pupils are shown a series of images and they must decide if each image is taken using a light or electron microscope. Extension is to identify what the micrograph is - answers provided in the presentation. 2) Explain the differences between a transmission electron microscope and a scanning electron microscope - information slides are provided on the early microscopes of Leeuwenhoek and Hooke and what are compound microscopes - activity to label the Compound microscope - the labelling diagram is prepared for you as a hidden slide - just print! Answers provided in the powerpoint for peer or self review (AfL). 3) Describe the limitation of the transmission and the scanning electron microscopes - pupils are given an information sheets spread around the room on the compound microscope, transmission and scanning electron microscopes (hidden slides - just print!) and hunt the answers to complete their table on comparing each type of microscope. Answers provided in presentation. The lesson finishes with a self-evaluation where pupils can reflect on their learning objectives and identify their corresponding level.

This resource has been created for the NEW OCR A-level biology specification but has much overlap with the AQA specification. The PowerPoint contains 22 high quality slides that alternate between teacher-led information slides and student-focused activities. There are options for making the content more student-led by printing the information slides for students to read and discuss in pairs and then attempt the activity that follows. I have provided the activities in separate files for those of you who prefer to print these from .pdf files. Every activity has a mark scheme integrated into the PowerPoint (and incorporated into the pdf) so that students can easily peer or self-assess. The content may take up to two lessons to deliver and should follow the Need for Transport Systems in Animals and the different types of circulatory systems (open vs closed, single vs double). The following topics are covered within this resource: Blood vessels: arteries, arterioles, veins, venules - structure and function The composition and role of blood, plasma, tissue fluid and lymph Capillary permeability and the formation of tissue fluid The lymphatic system and formation of lymph Hydrostatic and oncotic pressures This lesson should then be followed by The Structure of The Heart. Your feedback is very much appreciated.

Content is for the NEW AQA GCSE biology specification. GCSE Biology lesson plan/PowerPoint presentation contains all the activities and resources (in one file!) to achieve the following learning objectives: Describe how hormones can be used to treat infertility (higher tier only) - starter task to watch video and answer the corresponding questions - challenge question for differentiation included (answers included); what is infertility? information slide; what is IVF? information slide; sorting task on advantages/disadvantages of IVF (sheet for printing for pupils to fill out, integrated answers included); Interpret data on IVF birth rates - differentiated worksheet on analysing data of multiple births and IVF (integrated answers included); gap-fill plenary task (sheet for printing for pupils to fill out, integrated answers); alternative plenary task to order the stages in the IVF process (sheet for printing with challenge and extension questions, integrated answers); homework/exam practise - exam questions on fertility treatments (integrated answers).

This resource focuses on the following lesson objectives for exam boards AQA/OCR: Describe anaerobic respiration Develop practical skills to investigate anaerobic respiration Explain observations from an investigation It uses a series of three different experiments that are simple but effective investigations looking at anaerobic respiration in yeast. Each experiment can be set up by one pair or group of students and then students can move around the room and view the set up of the other experiments and make their own predictions and observations for each. The entire lesson with all activities, crib sheets/mark schemes is contained within one file (ready for printing), however I have included separate pdf files if you prefer to print the worksheets and resources from single files. The Equipment Help Cards, Questions to Consider and Sentence Starters and Endings all lend themselves to supporting lower ability students to complete the activities to the best of their ability. Extension activities are included as well as a choice of Exam practice questions that could be used as homework tasks.

GCSE biology Grade 1-9 AQA specification. This resource provides all the material you need to teach these three lessons. Resources are all contained within one file however for those that prefer to print from single files I have included the practise exam questions as a separate file too. It covers the following learning objectives (1-3) including speciation* and the activities associated with each objective are described. *Note speciation is for Triple Biology students only - Biology only. Recall Wallace’s ideas and how they influenced Darwin (aiming for grade 4): Starter - Finish the sentences to recap lesson of fossils - mark scheme included for peer/self-assessment Discussion - Information slides on Darwin and Wallace Discussion - Information slides on what the fossil record shows Task - Identify the true and false statements about fossils Optional plenary task - Self-assessment questions Explain how organisms become extinct and describe how mass extinction can occur (aiming for grade 6): Discussion - Information slides about organisms that cause extinction and how mass extinctions occur Activity - link to movie trailer for Deep Impact Discussion - information slides and animations on the effects of meteorite strike Summary Questions - Think, pair, share and summarise responses Exam Questions - mark scheme included Optional plenary task - Self-assessment questions Explain how species arise and the importance of isolation* (aiming for grade 8) *Biology only: Video - link to trailer for Disney film Up Video - Discussion of table-top maintain and link to video on The history of Venezuela’s ancient Tepuis Discussion - information slides to describe and discuss the process of speciation and the importance of isolation Task - long answer QWC exam question - mark scheme included Optional plenary - link to clip from the Might Boosh ‘Isolation’ and task to adapt lyrics (included) to describe how a new species is generated. Your feedback on this resource would be gratefully received.

This Powerpoint presentation provides a student activities interspersed by information slides to keep learning active. It provides a complete lesson for the delivery of the following graded lesson objectives: Describe the factors that determine population size Explain the impact of limiting factors on carrying capacity and final population size Compare how r- and k-Strategists are adapted to reach carrying capacity Students are then able to use the the graded lesson objectives provided to reflect on their learning at the end of the lesson. This resource is sold as a single lesson and provides an example of the content and quality of my resources for GCSE and A Level biology, many of which are sold as a much larger series of lessons.

This resource provides you with two lessons of material to enable your students to achieve the following learning objectives: Recall the different types of pathogen that can cause communicable diseases in animals (Grade C) Describe the means of transmission of animal- and plant-communicable pathogens (Grade B) Discuss the factors that affect transmission (Grade A) The material in the PowerPoint presentation and the accompanying resources is written for the OCR specification Biology A course. There are many different activities including a quiz; creating pathogen profile cards; card sort to link the pathogen, disease and symptoms; matching photos of social scenes with disease; a worksheet on the transmission of malaria (including mark scheme); name that pathogen plenary task; homework suggestions; extension tasks and exam questions.

Lesson plan and activities to achieve the following learning objectives: 1) Describe the difference between eukaryotic and prokaryotic cells - starter: guess the organelle from a series of images that make up each syllable 2) Explain the structure and function of all the different organelles that form the eukaryotic cell ultrastructure - label ultracellular structures of an animal; table of structures and functions with core and extension questions where pupils read about one organelle then teach each other; making cells using plasticine; group essay/challenge with 10-mark QWC exam question - mark scheme included 3) Summarise the differences in ultrastructure between plant, animal, fungi and algae cells - homework task to create a table to compare the similarities and differences in the organelles and structures found in plant, animal, algae and fungi Finishes with a pupil self evaluation task where they reflect on their learning objectives and identify their corresponding grade.

This 45-slide PowerPoint includes all the activities (in one file) required to achieve the following learning objectives: 1) Describe the stimuli that plants respond to 2) Describe plant growth factors such as IAA 3) Explain phototropism in flowering plants 4) Explain gravitropism in flowering plants All answers to the activities are included and fully integrated into the PowerPoint.

Twenty five slides (two complete lessons) of fun and engaging activities with integrated answers compiled for the NEW GCSE Biology specification. Aligned to the AQA exam board. Prepared with differentiated activities to achieve the following learning objectives: Bacteria multiply by simple cell division - starter video of bacterial division and discussion; video on different microorganisms - identify as many as you can! How to grow (at lower temperatures) and use uncontaminated cultures of bacteria - sterile technique (aseptic technique) information slides; extended writing task to describe the process using the diagrams and video information - scaffolding with identified key words/terms to include; storage of plates information and brief writing task; linking activity on culture mediums; ordering task of the steps involved in growing microorganisms in the lab. Calculate the number of bacteria in a population - enumeration of bacteria information slide and worked example to try followed by differentiated questions to calculate bacterial populations with fully integrated answers. The effect of disinfectants and antibiotics on bacterial growth - the great microbiology quiz activity; plenary linking terms to their roles in preventing bacterial growth.

This series of PowerPoint presentations covers the chapter Manipulating Genomes. There are a total of 150 slides partitioned into individual lessons with identifiable learning objectives. It has everything you need to deliver the entire lesson series and is written for the NEW OCR A-level specification with vast overlap between the AQA specification. It includes accurate and high quality information slides and a vast range of engaging pupil activities (with answers!) for the following topics within the chapter on Manipulating Genomes: DNA sequencing: Sanger sequencing; Pyrosequencing; Bioinformatics Applications of gene sequencing: Human genome; Comparisons between or within species; Synthetic biology; Bioethics DNA profiling: Polymorphisms; STRs; VNTRs; Applications of DNA profiling Polymerase Chain Reaction: Principles; Process; Applications Electrophoresis; Principles; Process; - interactive digital learning tools employed Genetic Engineering: Techniques; Applications Issues relating to genetic manipulation Gene therapy

New AQA specification for Year 12 biology. This lesson plan and PowerPoint presentation includes all the integrated pupil led activities and integrated answers to achieve the following learning objectives: 1) Describe why meiosis is necessary 2) Describe the process of meiosis 3) Explain how meiosis creates genetic variation

Section 1. Biological molecules. 1.4 Starch, glycogen and cellulose Year 12 AQA Biology This lesson plan/presentation provides you with a high quality lesson that includes all the necessary activities and resources for the following learning objectives: 1) Explain how a-glucose is linked together in starch and glycogen - engaging starter WHO AM I? activity where pupils are shown images of starch, glycogen and cellulose and given clues/descriptions and they must identify each image from the clues. Clues are listed in the notes of the first slide - answers provided. 2) Compare this to the different structure in the polymer of b-glucose in cellulose - information slides are provided on starch, glycogen and cellulose - activity to complete the table by filling it in whilst being presented with the information - there are periodic checks where pupils correct their work from the answers in the powerpoint. Table is prepared for you as a hidden slide - just print! Answers provided in the powerpoint for peer or self review (AfL). Additional summary task: identify the diasaccharide/polysaccharide produced from each monosaccharide - pupils fill in the gaps. 3) Link how the structure of the different polymers are linked to their function in organisms - Exam Question sheet provided in word document. Exam questions are also provided in the powerpoint - pupils can self or peer review answers from the powerpoint. The lesson finishes with a self-evaluation where pupils can reflect on their learning objectives and identify their corresponding level.

This PowerPoint contains all the activities (in one file) to achieve the following learning objectives: 1) Describe how plants exchange gases 2) Describe the structure of a dicotyledonous plant leaf 3) Explain the adaptations of leaves for efficient gas exchange There are a range of different tasks including, labelling the cross section of a leaf, ordering task of steps involved in stomata opening, sorting statements for function and adaptation of different features in the leaf and practise exam questions. All questions and answers for each task are fully integrated into the PowerPoint and can be used for self/peer assessment of tasks.

This PowerPoint contains everything you need to teach this lesson on Treating Diabetes in order to achieve the following learning objectives: To describe the differences in the way type 1 and type 2 diabetes are treated To interpret the results of the Benedict’s test for glucose To explain why blood glucose concentration changes with exercise or after a meal There are a variety of differentiated exercises from a practical activity (testing urine for glucose); follow-up practical questions (with integrated answers); cloze activity (with answers) and printing option for a mini-plenary for medium to low ability; an activity sheet on blood glucose concentration graphs (with integrated answers in the PowerPoint) with a printing option and differentiated tasks; and exam questions (including answers).

Content is for the NEW AQA GCSE biology specification. GCSE Biology lesson plan/PowerPoint presentation contains all the activities and resources (in one file!) to achieve the following learning objectives: To describe different methods of hormonal and non-hormonal contraception - information slides followed by Linking Activity (link the hormone-based contraceptive to the active ingredient and its function); Exam Questions (just print the slide) with fully integrated mark scheme. To explain how methods prevent pregnancy - quick quiz starter to recap roles of hormones in the menstrual cycle; information slides and Linking Activity. To analyse scenarios and decide on the most appropriate method of contraception - Sorting task to identify the benefits and drawbacks of using condoms; Family Planning Clinic - a game type activity where pupils take on the role of the Healthcare Professional or the Client and determine what advice should be followed (all cards for the game are included - just print!) There are a series of mini-plenary and AfL tasks throughout the lesson and each includes fully integrated answers (mark scheme) for peer or self-assessment.

Content is for the NEW AQA GCSE biology specification. GCSE Biology lesson plan/PowerPoint presentation contains all the activities and resources (in one file!) to achieve the following learning objectives: Recall that there are two types of reproduction (Grade 4) - information slides provided; identify a series of examples as being either sexual or asexual forms of reproduction Compare the main differences between asexual and sexual reproduction (Grade 6) - complete table to compare sexual and asexual reproduction characteristics; watch video on sexual and asexual reproduction Explain how the type of reproduction affects variety in the offspring (Grade 8) - information slides provided; explain the difference task with word bank to help lower ability pupils and extension/challenge question Describe how cells divide by meiosis to form gametes (Grade 4) - information slides provided; sorting task to put the stages of mitosis in the correct order Explain how meiosis halves the number of chromosomes in gametes and fertilisation restores the full number (Grade 6) - information slides provided; task to compare mitosis and meiosis - table provided Compare the processes in sexual reproduction that give rise to variation (Grade 8) - information slides provided; Exam-style questions to complete. All activities, sorting tasks; mini-plenary; exam-style questions, include the answers for peer or self-assessment.

Content is for the NEW AQA GCSE biology specification. GCSE biology lesson plan/PowerPoint presentation containing all the activities and resources (in one file!) to achieve the following learning objectives: 1) List a variety of plant pathogens and how to detect plant diseases - match the picture with the correct plant disease 2) State how mineral deficiencies can cause non-communicable diseases in plants - independent learning task where pupils use information cards (there are 7 different cards - ready for printing in the PowerPoint) to complete each row in their table (answers are included in the PowerPoint for peer or self-assessment). 3) Explain that plants have evolved a variety of mechanisms to defend themselves - sorting activity to identify if plant defences are physical, mechanical or chemical (answers included). Options for plenary task: true or false (answers included); gap fill exercise (answers included) or match the symptom to the likely cause (answers included).