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Paperfriendlyresourcesuk New Resources Coming soon! PFR resources have been designed to ensure good quality teaching is not compromised by printing restrictions or buffering videos. Lessons that include worksheets have been created for teachers to print at least two copies to an A4 sheet.

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Paperfriendlyresourcesuk New Resources Coming soon! PFR resources have been designed to ensure good quality teaching is not compromised by printing restrictions or buffering videos. Lessons that include worksheets have been created for teachers to print at least two copies to an A4 sheet.
KS3 Neutralisation Double lesson | Indigestion | Suitable for Activate
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KS3 Neutralisation Double lesson | Indigestion | Suitable for Activate

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This lessons has been made in accordance to the national curriculum for KS3 Suitable for a high ability KS3 class and to use as part of the ‘Activate’ schemes of work. Resources can be adjusted to meet the needs of your class. Includes: slide animations, embedded videos, worksheets, and questions with answers as well as a interactive review task. If for any reason the video link does not work, a URL has also been included in the notes. For further enquiries please email paperfriendlyresources@gmail.com
KS3 Indicators and pH Double lesson | natural indicators | universal indicators | Litmus paper
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KS3 Indicators and pH Double lesson | natural indicators | universal indicators | Litmus paper

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This lessons has been made in accordance to the national curriculum for KS3 Suitable for a high ability KS3 class and to use as part of the ‘Activate’ schemes of work. Resources can be adjusted to meet the needs of your class. Includes: slide animations, embedded videos, worksheets, and questions with answers as well as a interactive review task. If for any reason the video link does not work, a URL has also been included in the notes. For further enquiries please email paperfriendlyresources@gmail.com
AQA new specification-Pure substances and mixtures-C10.1
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AQA new specification-Pure substances and mixtures-C10.1

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C10-Chemical analysis-Pure substances and mixtures lesson created in accordance to the NEW AQA Specification (9-1). Designed for a low ability year 11 class, although content can be adjusted to suit any ability. Includes: slide animations, embedded videos and practice questions with answers on slides as well as a interactive review task. If for any reason the video link does not work, a URL has also been included in the notes. AQA spec link: 5.8.1.1 and 5.8.1.2 In chemistry, a pure substance is a single element or compound, not mixed with any other substance. Pure elements and compounds melt and boil at specific temperatures. Melting point and boiling point data can be used to distinguish pure substances from mixtures. In everyday language, a pure substance can mean a substance that has had nothing added to it, so it is unadulterated and in its natural state, eg pure milk. Students should be able to use melting point and boiling point data to distinguish pure from impure substances. Many products are complex mixtures in which each chemical has a particular purpose. Formulations are made by mixing the components in carefully measured quantities to ensure that the product has the required properties. Formulations include fuels, cleaning agents, paints, medicines, alloys, fertilisers and foods. Students should be able to identify formulations given appropriate information. Students do not need to know the names of components in proprietary products.
AQA new specification-Inheritance in action-B13.7
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AQA new specification-Inheritance in action-B13.7

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Inheritance in action lesson created in accordance to the NEW AQA Specification (9-1). Designed for higher ability class, although content can be adjusted to suit any ability. Includes: embedded videos and timers, slide animations, practice questions with answers on slides and an interactive quiz. AQA spec link: 6.1.6 Relevant chapter: B13 Genetics and reproduction. AQA Biology third edition textbook-Page 208-209. Students should be able to explain the terms: • gamete • chromosome • gene • allele • dominant • recessive • homozygous • heterozygous • genotype • phenotype. Some characteristics are controlled by a single gene, such as: fur colour in mice; and red-green colour blindness in humans. Each gene may have different forms called alleles. The alleles present, or genotype, operate at a molecular level to develop characteristics that can be expressed as a phenotype. A dominant allele is always expressed, even if only one copy is present. A recessive allele is only expressed if two copies are present (therefore no dominant allele present). If the two alleles present are the same the organism is homozygous for that trait, but if the alleles are different they are heterozygous. Most characteristics are a result of multiple genes interacting, rather than a single gene. Students should be able to understand the concept of probability in predicting the results of a single gene cross, but recall that most phenotype features are the result of multiple genes rather than single gene inheritance. MS 2e Students should be able to use direct proportion and simple ratios to express the outcome of a genetic cross. MS 1c, 3a Students should be able to complete a Punnett square diagram and extract and interpret information from genetic crosses and family trees. MS 2c, 4a (HT only) Students should be able to construct a genetic cross by Punnett square diagram and use it to make predictions using the theory of probability.
AQA new specification-Antibiotic resistant bacteria-B15.8
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AQA new specification-Antibiotic resistant bacteria-B15.8

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Antibiotic resistant bacteria lesson created in accordance to the NEW AQA Specification (9-1). Designed for higher ability class, although content can be adjusted to suit any ability. Includes: embedded videos and timers, slide animations, practice questions with answers on slides, worksheet and an interactive quiz. NB: If you are unable to play videos a URL link can be found in the slide notes. AQA spec link: 4.6.3.7 Relevant chapter: B15 Genetics and evolution. AQA Biology Third edition textbook-Page 248-249 Students are required to know the following; Bacteria can evolve rapidly because they reproduce at a fast rate. Mutations of bacterial pathogens produce new strains. Some strains might be resistant to antibiotics, and so are not killed. They survive and reproduce, so the population of the resistant strain rises. The resistant strain will then spread because people are not immune to it and there is no effective treatment. MRSA is resistant to antibiotics. To reduce the rate of development of antibiotic resistant strains: • doctors should not prescribe antibiotics inappropriately, such as treating non-serious or viral infections • patients should complete their course of antibiotics so all bacteria are killed and none survive to mutate and form resistant strains •the agricultural use of antibiotics should be restricted. The development of new antibiotics is costly and slow. It is unlikely to keep up with the emergence of new resistant strains.
AQA new specification-The world of the microscope-B1.1
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AQA new specification-The world of the microscope-B1.1

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The world of the microscope lesson created in accordance to the NEW AQA Specification (9-1). Designed for a higher ability class, although content can be adjusted to suit any ability. Includes: slide animations, embedded videos and practice questions with answers on slides. I have also included the required practical ppt as It goes hand in hand with this lesson. I would recommend doing the required practical after the plant and animal cells lesson. AQA spec link: 1.1.5 Relevant chapter: B1 Cell structure and transport. AQA Biology third edition textbook-Page 4-5 Specification requires students to know the following; Students should be able to: • understand how microscopy techniques have developed over time • explain how electron microscopy has increased understanding of sub-cellular structures. Limited to the differences in magnification and resolution. An electron microscope has much higher magnification and resolving power than a light microscope. This means that it can be used to study cells in much finer detail. This has enabled biologists to see and understand many more sub-cellular structures. WS 1.1 Students should be able to carry out calculations involving magnification, real size and image size using the formula: magnification = size of image size of real object Students should be able to express answers in standard form if appropriate. MS 1a, 1b, 2h, 3b WS 4.4 Use prefixes centi, milli, micro and nano.
AQA new specification-Gene expression and mutation-B13.6
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AQA new specification-Gene expression and mutation-B13.6

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Gene expression and mutation lesson created in accordance to the NEW AQA Specification (9-1). NB: BIOLOGY ONLY-HT. Designed for higher ability class, although content can be adjusted to suit any ability. Includes: embedded videos and timers, slide animations, practice questions with answers on slides. AQA spec link: 6.1.5 Relevant chapter: B13 Genetics and reproduction. AQA Biology third edition textbook-Page 206-207. Specification requires students to know the following; (HT only) Mutations occur continuously. Most do not alter the protein, or only alter it slightly so that its appearance or function is not changed. (HT only) A few mutations code for an altered protein with a different shape. An enzyme may no longer fit the substrate binding site or a structural protein may lose its strength. (HT only) Not all parts of DNA code for proteins. Non-coding parts of DNA can switch genes on and off, so variations in these areas of DNA may affect how genes are expressed.
AQA new specification-Rates of decomposition-B17.4
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AQA new specification-Rates of decomposition-B17.4

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Rates of decomposition lesson created in accordance to the NEW AQA Specification (9-1). Designed for a separate class only, although content can be adjusted to suit any ability. Required practical has been taught in a separate lesson. Includes powerpoint timers, slide animations, embedded video’s and mini review. NB: If you are unable to play embedded videos please view slide notes for link. AQA spec link: 4.7.2.3 Relevant chapter: B17 organising an ecosystem. AQA Biology Third edition textbook-Page 282-283 Students are required to know the following; Students should be able to explain how temperature, water and availability of oxygen affect the rate of decay of biological material. Students should be able to: • calculate rate changes in the decay of biological material Gardeners and farmers try to provide optimum conditions for rapid decay of waste biological material. The compost produced is used as a natural fertiliser for growing garden plants or crops. Anaerobic decay produces methane gas. Biogas generators can be used to produce methane gas as a fuel.
AQA new specification-The human population explosion-B18.1
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AQA new specification-The human population explosion-B18.1

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The human population explosion lesson created in accordance to the NEW AQA Specification (9-1). Designed for a higher ability class, although content can be adjusted to suit any ability. Students are expected to demonstrate their graph skills this lesson as well as interpret data. This lesson Includes powerpoint timers, slide animations, questions with markscheme and embedded video’s and mini review. ***Paper friendly tips: Avoid printing the markscheme provided, unless required, an interactive markscheme has been included in the powerpoint. Print two worksheets to one page to save paper. Instruct able students to copy out the table on slide 14 . NB: If you are unable to play embedded videos please view slide notes for link. * AQA spec link: 4.7.3.1; 3.2; 3.3 Relevant chapter: B18 Biodiversity and ecosystems. AQA Biology third edition textbook-Page 286-287 Students are required to know the following; Biodiversity is the variety of all the different species of organisms on earth, or within an ecosystem. A great biodiversity ensures the stability of ecosystems due to the interdependencies of one species on another for food, shelter, and the maintenance of the physical environment. The future of the human species on Earth relies on us maintaining a good level of biodiversity. Many human activities are reducing biodiversity and only recently have measures been taken to try to stop this reduction. Rapid growth in the human population and an increase in the standard of living mean that increasingly more resources are used and more waste is produced. Unless waste and chemical materials are properly handled, more pollution will be caused. Humans reduce the amount of land available for other animals and plants by building, quarrying, farming, and dumping waste.
AQA new specification-Evolution by natural selection-B13.2
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AQA new specification-Evolution by natural selection-B13.2

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Evolution by natural selection lesson created in accordance to the NEW AQA Specification (9-1). Designed for higher ability (trilogy/combined) class, although content can be adjusted to suit any ability. Includes: embedded videos and timers, slide animations, practice questions with answers on slides and an interactive quiz. NB: If you are unable to play videos a URL link can be found in the slide notes. AQA spec link: 4.6.2.1 + 4.6.2.2 Relevant chapter: B13 Variation and evolution. AQA Biology trilogy edition textbook-Page 180-181. Students are required to know the following; Students should be able to: • state that there is usually extensive genetic variation within a population of a species • recall that all variants arise from mutations and that: most have no effect on the phenotype; some influence phenotype; very few determine phenotype. Mutations occur continuously. Very rarely a mutation will lead to a new phenotype. If the new phenotype is suited to an environmental change it can lead to a relatively rapid change in the species. Students should be able to describe evolution as a change in the inherited characteristics of a population over time through a process of natural selection which may result in the formation of a new species. The theory of evolution by natural selection states that all species of living things have evolved from simple life forms that first developed more than three billion years ago. Students should be able to explain how evolution occurs through natural selection of variants that give rise to phenotypes best suited to their environment. If two populations of one species become so different in phenotype that they can no longer interbreed to produce fertile offspring they have formed two new species.
AQA new specification-Trophic levels and biomass transfers-B18.8-9
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AQA new specification-Trophic levels and biomass transfers-B18.8-9

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Please note that I have merged the content of two lessons into one resource. Trophic levels and biomass transfers lesson created in accordance to the NEW AQA Specification (9-1). Designed for a higher ability class, although content can be adjusted to suit any ability. This lesson Includes powerpoint timers, slide animations, past paper questions, self-assessment, interactive mark scheme, embedded videos and review. For general enquiries or support please email: Paperfriendlyresources@gmail.com NB: If you are unable to play embedded videos please view slide notes for link. * AQA spec link: 4.7.4; 1, 2, 3 Relevant chapter: B18 Biodiversity and ecosystems. AQA Biology third edition textbook-Page 300-301 Students are required to know the following; 7.4.1 Students should be able to describe the differences between the trophic levels of organisms within an ecosystem. Trophic levels can be represented by numbers, starting at level 1 with plants and algae. Further trophic levels are numbered subsequently according to how far the organism is along the food chain. Level 1: Plants and algae make their own food and are called producers. Level 2: Herbivores eat plants/algae and are called primary consumers. Level 3: Carnivores that eat herbivores are called secondary consumers. Level 4: Carnivores that eat other carnivores are called tertiary consumers. Apex predators are carnivores with no predators. Decomposers break down dead plant and animal matter by secreting enzymes into the environment. Small soluble food molecules then diffuse into the microorganism. 7.4.2 Pyramids of biomass can be constructed to represent the relative amount of biomass in each level of a food chain. Trophic level 1 is at the bottom of the pyramid. Students should be able to construct accurate pyramids of biomass from appropriate data. 7.4.3 Students should be able to: • describe pyramids of biomass • explain how biomass is lost between the different trophic levels. Producers are mostly plants and algae which transfer about 1% of the incident energy from light for photosynthesis. Only approximately 10% of the biomass from each trophic level is transferred to the level above it. Losses of biomass are due to: • not all the ingested material is absorbed, some is egested as faeces • some absorbed material is lost as waste, such as carbon dioxide and water in respiration and water and urea in urine. Large amounts of glucose are used in respiration. Students should be able to calculate the efficiency of biomass transfers between trophic levels by percentages or fractions of mass. Students should be able to explain how this affects the number of organisms at each trophic level.
AQA new specification-Variation-B14.1
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AQA new specification-Variation-B14.1

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Variation lesson created in accordance to the NEW AQA Specification (9-1). Designed for higher ability class, although content can be adjusted to suit any ability. Includes: embedded videos and timers, slide animations, practice questions with answers on slides and an interactive quiz. AQA spec link: 4.6.2.1 Relevant chapter: B14 Variation and evolution. AQA Biology third edition textbook-Page 218-219. Students are required to know the following; Students should be able to describe simply how the genome and its interaction with the environment influence the development of the phenotype of an organism. Differences in the characteristics of individuals in a population is called variation and may be due to differences in: • the genes they have inherited (genetic causes) • the conditions in which they have developed (environmental causes) • a combination of genes and the environment. NB: Mutations reference will be taught in the subsequent lesson.
Pearson BTEC New specification-Applied science-Unit 1-Diffraction grating and path difference-C1
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Pearson BTEC New specification-Applied science-Unit 1-Diffraction grating and path difference-C1

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Diffraction grating and path difference lesson created in accordance to the Pearsons BTEC national specification for applied science. This is the fourth lesson in the physics C1 working with waves topic. The new specification requires students to sit an externally assessed examination in January. Includes slide animations, embedded videos (incl. URL in slide notes) practice questions with answers on slides and real world applications. Relevant chapter: Principles and applications of science. Pearson Applied science (Student 1) textbook-Page 61-65 The following areas have been covered from the specification in this lesson. C1 Working with waves Understand the features common to all waves and use the following terms as applied to waves: C1 Working with waves Understand concepts of displacement, coherence, path difference, phase difference, superposition as applied to diffraction gratings.
AQA new specification-Variation-B13.1
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AQA new specification-Variation-B13.1

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Variation lesson created in accordance to the NEW AQA Specification (9-1). Designed for higher ability (trilogy/combined) class, although content can be adjusted to suit any ability. Includes: embedded videos and timers, slide animations, practice questions with answers on slides and an interactive quiz. AQA spec link: 4.6.2.1 Relevant chapter: B13 Variation and evolution. AQA Biology trilogy edition textbook-Page 178-179. Students are required to know the following; Students should be able to describe simply how the genome and its interaction with the environment influence the development of the phenotype of an organism. Differences in the characteristics of individuals in a population is called variation and may be due to differences in: • the genes they have inherited (genetic causes) • the conditions in which they have developed (environmental causes) • a combination of genes and the environment. NB: Mutations reference will be taught in the subsequent lesson.
AQA new specification-Inherited disorders-B12.6-TRILOGY
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AQA new specification-Inherited disorders-B12.6-TRILOGY

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Inherited disorders lesson created in accordance to the NEW AQA Specification (9-1). Designed for a higher ability TRILOGY class, although content can be adjusted to suit any ability. Includes: slide animations, embedded videos and practice questions with answers on slides as well as a quiz. This lesson in particular by students because of the real life implications of genetics. Students particularly enjoyed the cystic fibrosis video. I'd appreciate a review after your lesson :) AQA spec link: 6.1.7 Relevant chapter: B13 Genetics and reproduction. AQA trilogy textbook-Page 172-173.
AQA new specification-Preventing bacterial growth-B5.4
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AQA new specification-Preventing bacterial growth-B5.4

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NB: This is a BIOLOGY (SEPARATES) ONLY lesson Preventing bacterial growth in the lab lesson created in accordance to the NEW AQA Specification (9-1). Includes: slide animations, embedded videos, differentiated questions, answers and homework have also been included within the slides. This resource is NOT suitable for combined science students. AQA spec link: 4.1.1.6 Relevant chapter: B5-Communicable diseases . AQA Biology third edition textbook-Page 80-81. 1.1.6 Bacteria multiply by simple cell division (binary fission) as often as once every 20 minutes if they have enough nutrients and a suitable temperature. Students should be able to calculate cross-sectional areas of colonies or clear areas around colonies using r². Students should be able to calculate the number of bacteria in a population after a certain time if given the mean division time. Students should be able to express the answer in standard form.
AQA new specification-Distribution and abundance-B15.3
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AQA new specification-Distribution and abundance-B15.3

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Distribution and abundance lesson created in accordance to the NEW AQA Specification (9-1). Designed for a higher ability class, although content can be adjusted to suit any ability. Includes powerpoint timers, slide animations, embedded video’s and mini review. NB: If you are unable to play embedded videos please view slide notes for link. AQA spec link: 4.7.2.1 Relevant chapter: B15 Adaptations, interdependence and competitions. AQA Biology combined edition textbook-Page 210-211 Students are required to know the following; A range of experimental methods using transects and quadrats are used by ecologists to determine the distribution and abundance of species in an ecosystem. In relation to abundance of organisms students should be able to: • understand the terms mean, mode and median •calculate arithmetic means
AQA new specification-REQUIRED PRACTICAL 8-Germination-B11.9
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AQA new specification-REQUIRED PRACTICAL 8-Germination-B11.9

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Germination Practical (RP 8). This practical was completed in 2 lessons. Students are required to collect data outside of lesson time. I’ve attached both lessons, mock data (lesson 2) and a sign in sheet so you can create your own groups and student rota. Good luck! Lesson 1: Demo provided, students set up their practical, three conditions were created; full light-by windowsill, partial light-underneath windowsill and darkness-cupboard. The remainder of the lesson was spent discussing how to collect data, the student rota was explained. Students also used this time to assign roles to one another. Opportunity to collect data at break/lunch over 7 days (excluding weekends). Lesson 2: Interpreting data, working out averages, plotting graph, biological drawings. Conclusion and evaluation of practical was given as homework. Overall, this practical was very easy to set up but very fiddly to organise. Students need to take active approach as this practical needs to be done over 7 consecutive days, ownership to students. Mustard seeds were quick to germinate but were very poor at demonstrating phototropism. I would probably use coriander seeds next time. Also in the dark condition shoots grew very long, this confused students as light was absent (due to Etiolation), to complex for GCSE students to comprehend. Spec ref: 5.4.1 Required practical: Investigate the effect of light or gravity on the growth of newly germinated seedlings. Record results as both length measurements and as careful, labelled biological drawings to show the effects.
AQA new specification-Selective breeding-B13.3
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AQA new specification-Selective breeding-B13.3

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Selective breeding lesson created in accordance to the NEW AQA Specification (9-1). Designed for higher ability (trilogy/combined) class, although content can be adjusted to suit any ability. Includes: embedded videos and timers, slide animations, practice questions with answers on slides and an interactive quiz. NB: If you are unable to play videos a URL link can be found in the slide notes. AQA spec link: 4.6.2.3 Relevant chapter: B13 Variation and evolution. AQA Biology trilogy edition textbook-Page 182-183. Students are required to know the following; Students should be able to explain the impact of selective breeding of food plants and domesticated animals. Selective breeding (artificial selection) is the process by which humans breed plants and animals for particular genetic characteristics. Humans have been doing this for thousands of years since they first bred food crops from wild plants and domesticated animals. Selective breeding involves choosing parents with the desired characteristic from a mixed population. They are bred together. From the offspring those with the desired characteristic are bred together. This continues over many generations until all the offspring show the desired characteristic. The characteristic can be chosen for usefulness or appearance: • Disease resistance in food crops. • Animals which produce more meat or milk. • Domestic dogs with a gentle nature. • Large or unusual flowers. Selective breeding can lead to ‘inbreeding’ where some breeds are particularly prone to disease or inherited defects. WS 1.3, 1.4 Explain the benefits and risks of selective breeding given appropriate information and consider related ethical issues.
AQA new specification-Cell division in sexual reproduction (meiosis)-B13.2
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AQA new specification-Cell division in sexual reproduction (meiosis)-B13.2

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Cell division in sexual reproduction, otherwise known as meiosis lesson created in accordance to the NEW AQA Specification (9-1). Designed for a separates class, although content can be adjusted to suit any ability. Includes: slide animations, embedded timers, practice questions with answers on slides, quiz and 6 mark past paper question with ms. *Knowledge of the stages of meiosis is not required.* AQA spec link: 6.1.1 Relevant chapter: B13 Genetics and reproduction. AQA Biology third edition textbook-Page 198-199. Specification requires students to know the following; 6.1.2 Students should be able to explain how meiosis halves the number of chromosomes in gametes and fertilisation restores the full number of chromosomes. Cells in reproductive organs divide by meiosis to form gametes. When a cell divides to form gametes: • copies of the genetic information are made • the cell divides twice to form four gametes, each with a single set of chromosomes • all gametes are genetically different from each other. Gametes join at fertilisation to restore the normal number of chromosomes. The new cell divides by mitosis. The number of cells increases. As the embryo develops cells differentiate.