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.
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.
Inheritance in action lesson created in accordance to the NEW AQA Specification (9-1).
Designed for a 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.
AQA spec link: 6.1.6
Relevant chapter: B13 Genetics and reproduction. AQA trilogy textbook-Page 168-169.
More about genetics 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. Lots of interactive punnet squares to get the whole class involved.
AQA spec link: 6.1.8
Relevant chapter: B13 Genetics and reproduction. AQA trilogy textbook-Page 170-171.
This bundle only contains the content for COMBINED/ADDITIONAL science students. It includes the B12 unit-Reproduction. All lessons have been done in accordance to the specification requirements. Videos have been embedded for ease of use, and printer friendly resources attached. Search the individual lessons for more information on the lesson content. Save 20% by purchasing this bundle :) Total = 7 lessons + Past paper questions on mitosis and meiosis pack + 6 mark question
These lessons are suitable to teach separate science but they have 3 extra topics to learn.
Lesson 1-Types of reproduction
Lesson 2-Cell division in sexual reproduction
Lesson 3-DNA and the genome
Lesson 4-Inheritance in action
Lesson 5-More about genetics
Lesson 6-Inherited disorders
Lesson 7-Screening genetic disorders
Good luck with your lessons :)
Vaccination 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 videos and practice questions with answers on slides as well as a quiz.
AQA spec link: 3.1.7
Relevant chapter: B6 Preventing and treating diseases. AQA Biology third edition textbook-Page 98-99
Specification requires students to know the following;
Students should be able to explain how vaccination will prevent illness in an individual, and how the spread of pathogens can be reduced by immunising a large proportion of the population. Vaccination involves introducing small quantities of dead or inactive forms of a pathogen into the body to stimulate the white blood cells to produce antibodies. If the same pathogen re-enters the body the white blood cells respond quickly to produce the correct antibodies, preventing infection. Students do not need to know details of vaccination schedules and side effects associated with specific vaccines.
WS 1.4 Evaluate the global use of vaccination in the prevention of disease
Antibiotics and Painkillers 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 as well as a quiz. Due to this being a very short topic, I decided to teach this over two lessons and included a role play activity, it was thoroughly enjoyed by all three year 10 classes. Please leave a review at the end of the lesson, let me know how the 'doctor, patient' role play is reciprocated :)
AQA spec link: 3.1.8
Relevant chapter: B6 Preventing and treating diseases. AQA Biology third edition textbook-Page 100-101
Specification requires students to know the following;
Students should be able to explain the use of antibiotics and other medicines in treating disease. Antibiotics, such as penicillin, are medicines that help to cure bacterial disease by killing infective bacteria inside the body. It is important that specific bacteria should be treated by specific antibiotics.
WS 1.4
The use of antibiotics has greatly reduced deaths from infectious bacterial diseases. However, the emergence of strains resistant to antibiotics is of great concern.
There are links with this content to Culturing microorganisms (biology only). There are links with this content to Resistant bacteria.
Antibiotics cannot kill viral pathogens. Painkillers and other medicines are used to treat the symptoms of disease but do not kill pathogens. It is difficult to develop drugs that kill viruses without also damaging the body’s tissues.
Developing drugs 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 (a url to BBC-drug trials gone wrong-play first 10 minutes) and practice questions with answers on slides and worksheets.
AQA spec link: 3.1.9
Relevant chapter: B6 Preventing and treating diseases. AQA Biology combined textbook-Page 96-97
Specification requires students to know the following;
New medical drugs have to be tested and trialled before being used to check that they are safe and effective. New drugs are extensively tested for toxicity, efficacy and dose. Preclinical testing is done in a laboratory using cells, tissues and live animals. Clinical trials use healthy volunteers and patients.
•• Very low doses of the drug are given at the start of the clinical trial.
•• If the drug is found to be safe, further clinical trials are carried out to
find the optimum dose for the drug.
•• In double blind trials, some patients are given a placebo.
This bundle includes the B6 unit-Preventing and treating disease. This is a combined science unit. All lessons have been done in accordance to the specification requirements. Videos have been embedded for ease of use (no internet connection required except for a BBC-drug trials video-URL provided), and printer friendly resources attached. Search the individual lessons for more information on the lesson content. Save 23% by purchasing this bundle :)
Lesson 1-Vaccination
Lesson 2-Antibiotics and painkillers (L1) (taught this over 2 lessons, both included in this resource pack).
Lesson 3-Antibiotics and painkillers (L2)
Lesson 4-Discovering drugs
Lesson 5-Developing drugs
Eukaryotic and prokaryotic cells 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.
AQA spec link: 1.1.1
Relevant chapter: B1 Cell structure and transport. AQA Biology third edition textbook-Page 8-9
Specification requires students to know the following;
Plant and animal cells (eukaryotic cells) have a cell membrane, cytoplasm and genetic material enclosed in a nucleus. Bacterial cells (prokaryotic cells) are much smaller in comparison. They have cytoplasm and a cell membrane surrounded by a cell wall. The genetic material is not enclosed in a nucleus. It is a single DNA loop and there may be one or more small rings of DNA called plasmids. Students should be able to demonstrate an understanding of the scale and size of cells and be able to make order of magnitude calculations, including the use of standard form.
MS 1b, 2a, 2h WS 4.4 Use prefixes centi, milli, micro and nano.
Specialisation in animal cells 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.
AQA spec link: 1.1.3
Relevant chapter: B1 Cell structure and transport. AQA Biology third edition textbook-Page 10-11
Specification requires students to know the following;
Students should be able to, when provided with appropriate information, explain how the structure of different types of cell relate to their function in a tissue, an organ or organ system, or the whole organism. Cells may be specialised to carry out a particular function:
•• sperm cells, nerve cells and muscle cells in animals
Specialisation in plant cells 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, card sort activity and display slides.
AQA spec link: 1.1.3
Relevant chapter: B1 Cell structure and transport. AQA Biology third edition textbook-Page 12-13
Specification requires students to know the following;
Students should be able to, when provided with appropriate information, explain how the structure of different types of cell relate to their function in a tissue, an organ or organ system, or the whole organism. Cells may be specialised to carry out a particular function:
root hair cells, xylem and phloem cells in plants.
Covalent bonding lesson created in accordance to the Pearsons BTEC national specification for applied science. This topic is covered in unit 1 chemistry-Periodicity and properties of elements. This new specification requires students to sit an externally assessed examination in January. Includes slide animations and practice questions with answers on slides.
Relevant chapter: Principles and applications of science. Pearson Applied science (Student 1) textbook-Page 9-10
The specification requires students to know the following:
Understand covalent bonding
strong electrostatic attraction between two nuclei and the shared pair(s) of electrons between them
dot and cross diagrams to show electrons in simple covalent molecules, including those with multiple bonds and dative covalent (coordinate) bonds
the relationship between bond lengths and bond strengths in covalent bonds
tetrahedral basis of organic chemistry
Rate of photosynthesis 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: 4.4.1.1
Relevant chapter: B8 Photosynthesis. AQA Biology third edition textbook-Page 126-127
Students are required to know the following;
Students should be able to explain the effects of temperature, light intensity, carbon dioxide concentration, and the amount of chlorophyll on the rate of photosynthesis.
Students should be able to:
• measure and calculate rates of photosynthesis
• extract and interpret graphs of photosynthesis rate involving one limiting factor
•plot and draw appropriate graphs selecting appropriate scale for axes
•translate information between graphical and numeric form.
Solve simple algebraic equations.
MS 1a, 1c, 2c, 4a, 4c
(HT only) These factors interact and any one of them may be the factor that limits photosynthesis.
(HT only) Students should be able to explain graphs of photosynthesis rate involving two or three factors and decide which is the limiting factor.
(HT only) Students should understand and use inverse proportion – the inverse square law and light intensity in the context of photosynthesis.
(HT only) Limiting factors are important in the economics of enhancing the conditions in greenhouses to gain the maximum rate of photosynthesis while still maintaining profit.
(HT only) WS 1.4
Use data to relate limiting factors to the cost effectiveness of adding heat, light or carbon dioxide to greenhouses.
Evolution by natural selection 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. 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: B14 Variation and evolution. AQA Biology third edition textbook-Page 220-221.
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.
This bundle includes the B2 unit-Cell division. These resources have been designed for a higher ability class.
All lessons have been done in accordance to the specification requirements. Videos have been embedded for ease of use (no internet connection required) although URL link can be found in slide notes, and printer friendly resources attached. Search the individual lessons for more information on the lesson content. Save 25% by purchasing this bundle :)
Lesson 1-Cell division (mitosis)
Lesson 2-Grown and differentiation
Lesson 3-Stem cells (introduction)
Lesson 4-Stem cell dilemmas
Lesson 5-(optional) Cauliflower cloning practical.
Selective breeding 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. 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: B14 Variation and evolution. AQA Biology third edition textbook-Page 222-223.
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.
This bundle includes the B8 unit-Photosynthesis. This is a combined science unit. All lessons have been done in accordance to the specification requirements. Videos have been embedded for ease of use (no internet connection required although URL has also been provided), and printer friendly resources attached. Search the individual lessons for more information on the lesson content. Save 17% by purchasing this bundle :)
Lesson 1-Photosynthesis (introduction)
Lesson 2-Rate of photosynthesis
Lesson 3-Required practical 6
Lesson 4-How plants use glucose
Lesson 5-Making the most of photosynthesis
Genetic engineering 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, 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: 4.6.2.4
Relevant chapter: B13 Variation and evolution. AQA Biology third edition textbook-Page 224-225.
Students are required to know the following;
Students should be able to describe genetic engineering as a process which involves modifying the genome of an organism by introducing a gene from another organism to give a desired characteristic.
Plant crops have been genetically engineered to be resistant to diseases or to produce bigger better fruits.
Bacterial cells have been genetically engineered to produce useful substances such as human insulin to treat diabetes.
Students should be able to explain the potential benefits and risks of genetic engineering in agriculture and in medicine and that
some people have objections.
In genetic engineering, genes from the chromosomes of humans and other organisms can be ‘cut out’ and transferred to cells of
other organisms. Crops that have had their genes modified in this way are called
genetically modified (GM) crops. GM crops include ones that are resistant to insect attack or to herbicides. GM crops generally show increased yields.
Concerns about GM crops include the effect on populations of wild flowers and insects. Some people feel the effects of eating GM crops
on human health have not been fully explored.
Modern medical research is exploring the possibility of genetic modification to overcome some inherited disorders.
(HT) Students should be able to describe the main steps in the process of genetic engineering.
In genetic engineering:
• enzymes are used to isolate the required gene; this gene is inserted into a vector, usually a bacterial plasmid or a virus
• the vector is used to insert the gene into the
required cells
• genes are transferred to the cells of animals, plants, or microorganisms at an early stage (egg or embryo) in their development so that they develop with desired characteristics.
Classification 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: 4.6.4
Relevant chapter: B14 Genetics and evolution. AQA combined trilogy edition textbook-Page 198-199
Students are required to know the following;
Traditionally living things have been classified into groups depending on their structure and characteristics in a system developed by Carl Linnaeus.
Linnaeus classified living things into kingdom, phylum, class, order, family, genus and species. Organisms are named by the binomial system of genus and species.
Students should be able to use information given to show understanding of the Linnaean system.
Students should be able to describe the impact of developments in biology on classification systems.
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: B14 Genetics and evolution. AQA combined trilogy edition textbook-Page 196-197
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.
New systems of classification 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: 4.6.4
Relevant chapter: B15 Genetics and evolution. AQA Biology Third edition textbook-Page 252-253
Students are required to know the following;
As evidence of internal structures became more developed due to improvements in microscopes, and the understanding of biochemical processes progressed, new models of classification were proposed.
Due to evidence available from chemical analysis there is now a ‘threedomain system’ developed by Carl Woese. In this system organisms are divided into:
•archaea (primitive bacteria usually living in extreme environments)
•bacteria (true bacteria)
•eukaryota (which includes protists, fungi, plants and animals).
WS 1.1 Understand how scientific methods and theories develop over time.
Evolutionary trees are a method used by scientists to show how they believe organisms are related. They use current classification data for living organisms and fossil data for extinct organisms.