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Content is for the NEW AQA A-level biology specification. AQA Year 12 Biology - Section 4. Genetic information, variation and relationships between organisms - Topic: Genetic Diversity - Lesson 9.1 Gene Mutation. This lesson plan and PowerPoint presentation includes all the student led activities (all in one file!) required to achieve the following learning objectives: 1) Describe gene mutations 2) Explain how deletion and substitution of bases result in different amino acid sequences in polypeptides 3) Explain why some mutations do not result in a changed amino acid sequence 4) Describe what chromosome mutations are The lesson includes: integrated progress checks and integrated answers in the PowerPoint; there are information slides with keywords for learning identified clearly; activity questions with differentiation - answers included for peer or self-assessment; exam questions (in a printable format) with integrated answers in the PowerPoint.

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 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.

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.

Content is for the NEW AQA GCSE biology specification. This lesson plan and PowerPoint encompasses two lessons packed with pupil-led activities (all in one file!) and fully integrated answers to achieve the following learning objectives: 1) How plants use glucose they make 2) The extra materials that plant cells need to produce proteins 3) Some practical tests for starch, sugars, proteins and fats 4) Describe the inverse square law 5) Explain interactions between factors that affect photosynthesis 6) Suggest ways to manipulate the environment for best plant growth Activities include: card sort, gap-fill, linking exercises, colouring worksheet with differentiated questions, quiz questions, video link with corresponding prompt questions for discussion, prepared information cards for hunt the answer activity, calculations of light intensity, true/false plenary.

This is a 5-part lesson series of PowerPoint presentations (over 100 slides) covering the entire topic of Cellular Control. It is written to the NEW OCR A-level specification. It includes accurate and high quality information slides and pupil activities for the following lessons within Cellular Control: 1) Gene Mutations 2) The effect of Gene Mutations on Protein Production and Function 3) Regulatory Mechanisms (The lac operon, oestrogen, transcriptional, post-transcriptional and post-translational control) 4) Genetic Control of Body Plan Development (Homeobox genes) 5) Importance of Mitosis and Apoptosis in Controlling Development These PowerPoint can be used to form the basis for the entire series of lessons on Cellular Control.

This lesson plan in presentation form is suitable for higher level groups (some activities could be omitted to suit a low ability set) to achieve the following objectives: 1) state the word equation for photosynthesis - starter: list as many words to do with photosynthesis; extension - produce a description of photosynthesis from the key words 2) explain the process of photosynthesis - gap fill exercise with word bank included (answers provided in the powerpoint); two homework ideas: ideas to support the claim "photosynthesis is essential for life", anatomy of a plant - identify where the reactants and products of photosynthesis occur in the plant. 3) use appropriate methods during practical work - method sheet included (Testing a leaf for starch Practical sheet - final.doc); practical equipment and set up explained, questions on the practical given for pupils to complete - extension questions included.

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.

This resource is designed for the new AQA GCSE (Grade 1-9) TRIPLE Biology ONLY* specification. Everything you need is within the PowerPoint - just print the activities from there, but I have also included the exam questions as a separate file in case you prefer to print from individual files. The complete lesson includes multiple lesson activities, mini-plenaries and exam practice built into high quality PowerPoint slides. The following learning objectives are covered within this lesson: Recall the base paired structure of DNA (Grade 4) - video, recap questions Explain steps in the process of protein synthesis (Grade 6) - information slides, summary, practice exam questions Link the mutations in the DNA code to the proteins made (Grade 8) - information slides, practice exam question (longer answer - 5 marker). Both the slides and the word document contain the mark scheme and can be used for peer/self-assessment. I have now included the mini-plenary task as a separate file so that you can print straight from pdf rather than printing slides from the PowerPoint. *Biology ONLY content is the triple GCSE award in science

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).

This resource is designed for OCR exam board with much overlap with AQA exam board. It contains a worksheet of short answer questions illustrated with diagrams of the different carbohydrate molecules students must be familiar with. Questions have students practicing their recognition and drawing of biological molecules, including condensation and hydrolysis reactions. There are summary activites to complete on simple sugars (glucose, fructose, galactose, maltose, sucrose and lactose) and then a further summary activity on all the important polysaccharides (amylose, amylopectin, glycogen, cellulose). There is a mark scheme included for all summary activities. The resource ends with a selection of exam questions including multiple choice, short and long answer questions. Mark scheme included. pdf files have been included for ease of printing. Word documents included for ease of editing.

Lesson plan (PowerPoint) and activities to achieve the following learning objectives: 1) Describe the events that take place during DNA replication 2) Describe the formation of a new polynucleotide strand 3) Explain the semi-conservative process of DNA replication

This PowerPoint includes all the activities (in one file) to achieve the following learning objectives: 1) Describe how plants limit water loss 2) Explain how xerophytes conserve water 3) Compare/contrast the conservation of water in plants and insects The activities included are: starter sorting activity to link terminology of plants with their descriptor (integrated answers in PowerPoint); think pair share activity on the theory of water potential (integrated answers in PowerPoint); information cards for pupil-led activity to complete information in a table on features and adaptations of xerophytes (integrated answers in PowerPoint); exam questions (integrated answers in PowerPoint).

Are you looking for some fun practicals to do with your Year 7 and Year 8 science classes? This set of ten KS3 biology practicals will keep them entertained for weeks! Some of the practicals are more suited to a bottom set and others require the students to design their own investigation before carrying it out. The diffusion practical (among others) can be extended to GCSE students by simply introducing surface area:volume calculations/rates of diffusion estimations. All practicals have a place within the KS3 biology curriculum and will support student learning going into the GCSE biology science courses. Most practicals require easily accessible equipment that is not outside of the normal requisition list that you might give your science technicians. Phenolphthalein, cambomba (or elodea) and woodlice are probably the most exotic of materials to source and will have to be ordered in advance. Collection of some materials (e.g. plastic bottles to make spirometers) can be outsourced to your students who I am sure wouldn’t mind bringing in their own from home! Have fun with it!

Lesson plan and activities to achieve the following learning objectives: 1) Plan an investigation 2) Explain how your method will test the hypothesis 3) Explain why you have chosen your range of data or observations