Created for a low-attaining year 7 class but could be used across KS2-3.
This resource is a whole lesson, consisting of a worksheet and accompanying powerpoint presentation. There are 8 tasks designed to help pupils develop their understanding of the anatomy of flowering plants, including labelling diagrams, filling in the blanks, a hands on flower dissection, creative task and plenary questions.
To deliver this lesson you will need to provide flowers such as lillies or daffodils and print the worksheet.
Large PowerPoint covering the whole cell biology topic for AQA GCSE Biology/Combined Science.
Eukaryotes, prokaryotes, animal, plant and bacterial cells, cell specialisation, microscopes, mitosis and the cell cycle, stem cell, diffusion, osmosis and active transport.
Complete PowerPoint presentation for a 2 hour lesson on biodiversity within communities for AQA A Level Biology. Includes calculating the index of diversity, impact of agriculture on biodiversity and conservation techniques.
New content slides and accompanying activities in the ‘learning loop’ format.
Covers specification points:
Biodiversity can relate to a range of habitats, from a small local habitat to the Earth.
Species richness is a measure of the number of different species in a community.
An index of diversity describes the relationship between the number of species in a community and the number of individuals in each species.
Calculation of an index of diversity (d) from the formula d = N (N − 1) /n (n − 1) where N = total number of organisms of all species and n = total number of organisms of each species.
Farming techniques reduce biodiversity. The balance between conservation and farming.
Complete 2 hour lesson on interpreting phylogenetic trees and clarifying evolutionary relationships using DNA sequences, proteins amino acid sequences and immunological techniques. For AQA A level biology 3.4.5 Species and Taxonomy. Uses the ‘learning loop’ lesson format, with plenty of short practise tasks and exam questions. Could be easily adapted to suit a different lesson length.
Complete PowerPoint presentation for a 2 hour lesson on genetic diversity and adaptation for AQA A Level Biology. Includes natural selection, directional selection and stabilising selection.
New content slides and accompanying activities in the ‘learning loop’ format.
Covers specification points:
Genetic diversity as the number of different alleles of genes in a population.
Genetic diversity is a factor enabling natural selection to occur.
The principles of natural selection in the evolution of populations.
Random mutation can result in new alleles of a gene.
Many mutations are harmful but, in certain environments, the new allele of a gene might benefit its possessor, leading to increased reproductive success.
The advantageous allele is inherited by members of the next generation.
As a result, over many generations, the new allele increases in frequency in the population.
Directional selection, exemplified by antibiotic resistance in bacteria, and stabilising selection, exemplified by human birth weights.
Natural selection results in species that are better adapted to their environment. These adaptations may be anatomical, physiological or behavioural.
PowerPoint presentation on microscopy - using light microscopes and comparing light and electron microscopes for AQA GCSE Biology.
Full lesson using the learning loop format.
Learning Objectives:
Prepare slides of plant and animal cells and describe the procedure.
Correctly use a microscope to observe cells under different magnifications.
Describe the differences in magnification and resolution of light and electron microscopes.
Explain how electron microscopy has increased understanding of organelles.
Calculate the magnification of a light microscope.
Carry out calculations using the formula: real size = image size/magnification
Rearrange the equation to calculate image size or magnification.
Convert values for the units: cm, mm, µm and nm.
PowerPoint for complete lesson on osmosis and active transport for AQA A Level Biology
3.2.3 Transport across cell membranes
• osmosis (explained in terms of water potential)
• active transport (involving the role of carrier proteins and the
importance of the hydrolysis of ATP)
• co-transport (illustrated by the absorption of sodium ions and
glucose by cells lining the mammalian ileum).
PowerPoint for full lesson on infertility for AQA GCSE Biology/trilogy. Covers fertility drugs, IVF and disadvantages/ethical issues.
Covers:
Students should be able to explain the use of hormones in modern
reproductive technologies to treat infertility.
This includes giving FSH and LH in a ‘fertility drug’ to a woman. She
may then become pregnant in the normal way.
In Vitro Fertilisation (IVF) treatment.
• IVF involves giving a mother FSH and LH to stimulate the maturation
of several eggs.
• The eggs are collected from the mother and fertilised by sperm from
the father in the laboratory.
• The fertilised eggs develop into embryos.
• At the stage when they are tiny balls of cells, one or two embryos are
inserted into the mother’s uterus (womb).
Although fertility treatment gives a woman the chance to have a baby of
her own:
• it is very emotionally and physically stressful
• the success rates are not high
• it can lead to multiple births which are a risk to both the babies and
the mother
A science placemat to print in A3 and laminate. Stick a few down on tables or around the edge of the room so pupils can use them as a self-help resource. Includes naming common equipment, units, drawing graphs, designing experiment and other core skills for science at KS3/4.
Placemat is in Word format so feel free to edit it in any way you wish to suit your classes needs.
NOTE: check format before printing- format may be skewed if opening in different versions of word so check before printing, you may have to rearrange things slightly.
PowerPoint presentation on species, courtship behaviour and classification - used for AQA A Level Biology (2 hour lesson) but could be easily adapted.
Topic 3.4.5
Specification points covered:
Two organisms belong to the same species if they are able to produce
fertile offspring. Courtship behaviour as a necessary precursor to
successful mating. The role of courtship in species recognition.
A phylogenetic classification system attempts to arrange species
into groups based on their evolutionary origins and relationships.
It uses a hierarchy in which smaller groups are placed within larger
groups, with no overlap between groups. Each group is called a
taxon (plural taxa).
One hierarchy comprises the taxa: domain, kingdom, phylum, class,
order, family, genus and species.
Each species is universally identified by a binomial consisting of the
name of its genus and species, eg, Homo sapiens.
Lesson on proteins for AQA A Level Biology. Some slides taken from other free PowerPoints available on TES - thank you for sharing!
Covering:
Amino acids are the monomers from which proteins are made. The
general structure of an amino acid. The twenty amino acids that
are common in all organisms differ only in their side group.
A condensation reaction between two amino acids forms a
peptide bond.
• Dipeptides are formed by the condensation of two amino acids.
• Polypeptides are formed by the condensation of many amino acids.
A functional protein may contain one or more polypeptides.
The role of hydrogen bonds, ionic bonds and disulfide bridges in the
structure of proteins.
Proteins have a variety of functions within all living organisms. The
relationship between primary, secondary, tertiary and quaternary
structure, and protein function.
The biuret test for proteins.
Powerpoint presentation on the light-dependent reaction of photosynthesis for AQA A-level Biology.
Full lesson (‘learning loop’ style lesson) includes starter, objectives, summary content slides, practise question and mark scheme and evaluation.
Covers specification points:
The light-dependent reaction in such detail as to show that:
• chlorophyll absorbs light, leading to photoionisation of chlorophyll
• some of the energy from electrons released during photoionisation
is conserved in the production of ATP and reduced NADP
• the production of ATP involves electron transfer associated
with the transfer of electrons down the electron transfer chain
and passage of protons across chloroplast membranes and
is catalysed by ATP synthase embedded in these membranes
(chemiosomotic theory)
• photolysis of water produces protons, electrons and oxygen.
A full lesson PowerPoint for AQA A Level Biology on the structure of cell membranes.
3.2.3 Transport across cell membranes
The basic structure of all cell membranes, including cell-surface
membranes and the membranes around the cell organelles of
eukaryotes, is the same.
The arrangement and any movement of phospholipids, proteins,
glycoproteins and glycolipids in the fluid-mosaic model of
membrane structure. Cholesterol may also be present in cell
membranes where it restricts the movement of other molecules
making up the membrane.
PowerPoint for a complete lesson on transport across membranes, focussing on simple and facilitated diffusion for AQA A Level Biology.
3.2.3 Transport across cell membranes
Movement across membranes occurs by:
• simple diffusion (involving limitations imposed by the nature
of the phospholipid bilayer)
• facilitated diffusion (involving the roles of carrier proteins and
channel proteins)
Powerpoint presentation for a lesson introducing the hormonal control of blood glucose concentration. Written for AQA A-level biology but easily adapted.
Specification points covered:
The factors that influence blood glucose concentration.
The role of the liver in glycogenesis, glycogenolysis and
gluconeogenesis.
The action of insulin by:
• attaching to receptors on the surfaces of target cells
• controlling the uptake of glucose by regulating the inclusion of
channel proteins in the surface membranes of target cells
• activating enzymes involved in the conversion of glucose to
glycogen.
The action of glucagon by:
• attaching to receptors on the surfaces of target cells
• activating enzymes involved in the conversion of glycogen to
glucose
• activating enzymes involved in the conversion of glycerol and
amino acids into glucose.
Does not cover the role of adrenaline or the second messenger model.
PowerPoint for a whole lesson on the endocrine system, control of blood glucose and diabetes - for AQA Trilogy or Biology. 2-3 lessons worth of content.
Specification points:
Students should be able to describe the principles of hormonal
coordination and control by the human endocrine system.
The endocrine system is composed of glands which secrete
chemicals called hormones directly into the bloodstream. The blood
carries the hormone to a target organ where it produces an effect.
Compared to the nervous system the effects are slower but act for
longer.
The pituitary gland in the brain is a ‘master gland’ which secretes
several hormones into the blood in response to body conditions.
These hormones in turn act on other glands to stimulate other
hormones to be released to bring about effects.
Students should be able to identify the position of the following on a
diagram of the human body:
• pituitary gland
• pancreas
• thyroid
• adrenal gland
• ovary
• testes.
Blood glucose concentration is monitored and controlled by the
pancreas.
If the blood glucose concentration is too high, the pancreas
produces the hormone insulin that causes glucose to move from the
blood into the cells. In liver and muscle cells excess glucose is
converted to glycogen for storage.
Students should be able to explain how insulin controls blood
glucose (sugar) levels in the body.
Type 1 diabetes is a disorder in which the pancreas fails to produce
sufficient insulin. It is characterised by uncontrolled high blood
glucose levels and is normally treated with insulin injections.
In Type 2 diabetes the body cells no longer respond to insulin
produced by the pancreas. A carbohydrate controlled diet and an
exercise regime are common treatments. Obesity is a risk factor for
Type 2 diabetes.
Students should be able to compare Type 1 and Type 2 diabetes
and explain how they can be treated
Whole lesson about binary fission using the learning loop approach. Created for AQA GCSE Biology, but could be adapted.
Feel free to feedback if you use this resource :)
A worksheet I created to guide less confident students through calibrating and using a graticule to measure a cell. Suitable for GCSE and A Level Biology. I teach AQA but could be used for other specifications.
AT d - use of light microscope at high power and low power, including use of a graticule
AQA required practical 12:
Investigation into the effect of a named environmental factor on the distribution of a given species.
Template and accompanying PowerPoint presentation for students to plan and write up their investigation for practical 12.
Designed to be conducted over a 2 hour session with an onsight investigation.
Exam questions included have been taken from https://www.tes.com/member/m_adanah who also provides a free template for this practical and many others.
Specification points covered:
The size of a population can be estimated using:
• randomly placed quadrats, or quadrats along a belt transect, for slow-moving or non-motile organisms
• the mark-release-recapture method for motile organisms. The assumptions made when using the mark-release-recapture method
Students could:
• investigate the distribution of organisms in a named habitat using randomly placed frame quadrats, or a belt transect
• use both percentage cover and frequency as measures of abundance of a sessile species.
Students could use the mark-release-recapture method to investigate the abundance of a motile species.