Dr MN

A full differentiated lesson covering the calculation of speed (with whiteboard activity) and interpreting/drawing motion graphs with a range of activities. A support sheet is included for less able pupils during the final graph drawing activity. All answers are included and timers are used to promote pace. If you like this lesson please visit my shop for more: https://www.teacherspayteachers.com/Store/Dr-Mn

This lesson covers introns, exons and mRNA editing, cAMP is post transnational regulation of gene expression, body plans (Hox genes), and apoptosis and mitosis in the regulation of body plans. All answers incorporated into the slides or attached in included mark scheme, animation is included to facilitate self correction/questioning and timers are included to promote pace.

This lesson covers xylem and phloem and the importance of transport in plants. There is then a differentiated question grid and a past paper question to apply learning/conduct AFL. All answers are included to facilitate self/peer marking. There is then a simple practical (over 2 days) where students observe xylem tissue using coloured water and celery. The plenary is based upon the students reflecting on their progress against the learning objectives.

A lesson based on the OCR-A SOW but can be used for others. The lesson introduces the assumptions of the Hardy Weinberg principle and introduces each of the 2 equations with examples. The use of both equations in tandem is then introduced step by step, again using an example. There are then 12 questions for students to apply themselves. All answers are incorporated into the slides.

A full differentiated lesson covering the features of a 'good drug', preclinical trials, clinical trials, double blind trials, and publishing results. The concept of 'placebo' is discussed at several stages. Learning is applied/assessed at 4 stages, a match up activity, differentiated question grid, past paper question and plenary quiz. All the answers are included through animation and timers are used to promote pace. There is also an opportunity for class debate during the summary of answers a

This lesson covers distribution, abundance percentage cover, random sampling, frame quadrats, point quadrats and transects. Student learning is assessed at 3 stages with the use of past paper questions. Answers are included for self/peer marking.

This lesson starts off with a brief video to introduce the topic and then covers arteries, veins and capillaries in detail. Student understanding is checked via a differentiated question grid challenge. Students then attempt a past paper question (9 marks) and peer/self mark. The lesson then covers double circulation and its advantages. Another PP question is used for students to apply their learning. Peer/self marking facilitates AFL. A plenary question involves students comparing the efficienc

This lesson covers issues with heart valves and pacemakers as well as the rectification of each. There is then a 17 mark past paper question for students to apply and consolidate their learning (answers included). Student notes and textbooks can be used for support. Artificial and donor hearts are then discussed over 3 slides. The students then complete independent research on 5 key points relating to heart transplantation, this can be done as a poster, leaflet or students can give brief paragra

This lesson uses cordyceps fungi to incite interest during the starter. It then focuses on athletes foot and rose black spot - red font is used to indicate where students should take notes. A differentiated question grid is used to apply learning/conduct AFL (answers included). The lesson then covers malaria ahead of a final PP question (answers included). There is then a short quiz based on the lessons content - students can be elected to answer by throwing round a soft toy or whiteboards can b

A full lesson which, in brief, covers the skin, nose and trachea/bronchi as the first line of defence. A differentiated question grid is used to apply knowledge and to conduct AFL (answers included). The lesson then moves onto the white blood cells and their role in phagocytosis, antibody and antitoxin production. Students then apply their knowledge to a PP question (answers included). The plenary is based on students reflecting upon their progress against the learning objectives

A full, differentiated lesson which covers the chemicals found in cigarettes, nicotine, carbon monoxide, smoking during pregnancy and carcinogens. A differentiated question grid and a PP question is then used to apply learning and to conduct AFL. The effects of smoking and cardiovascular disease are then discussed followed by a final PP question ahead of a reflective plenary. All answers to written activities are included into the slides, and timers are used to promote pace. This lesson uses vid

This lesson was delivered to an A2 (age 17-18 years) class but the content is quite simple making it suitable for younger students. This lesson covers genetic and environmental factors within inheritance, using chlorosis in plants and body mass in animals as examples for the latter. The role of sexual reproduction in genetic variation is then studied, alongside homozygous and heterozygous inheritance and continuous/discontinuous variation. A range of activities (including 2 past paper questions)

This lesson covers the units of speed, how to calculate speed, distance and time. Student understanding is checked with a simple calculation table and answers are peer/self assessed. The lesson then moves onto averages speed vs. instantaneous speed and relative motion. A differentiated question grid challenge is then used to apply learning and facilitate AFL for peer/self marking. The practical activity involves students calculating the speed of a toy car down a ramp, which can be divided into 5

A full, differentiated lesson; a starter where students categorise items as acidic, alkaline or neutral is used to determine preconceived knowledge. Following this the pH range, acids, bases, and alkalis are discussed making use of examples. Students are prompted to take notes at key points as shown in red font. The release of H+ and OH- ions is also discussed ahead of methods in determining the pH of solutions. Knowledge is then applied to a differentiated question grid followed by peer/self-ma

A full lesson which covers salmonella food poisoning, gonorrhoea, and bacterial diseases in plants. Student understanding is checked at various stages with answers included via animation. The two main activities include a differentiated question grid challenge and a PP question (answers also included). Images and video are used to incite student interest. The plenary is based upon students reflecting upon their progress against the learning objectives.

A full differentiated lesson based on the new AQA (B7.5) SOW but can be used for others. The lesson covers what alcohol is, how it is absorbed and how it effects the brain and liver. A data exercise, graphic images, news articles and celebrities are used to incite and maintain student interest whilst promoting relevance. A differentiated question grid is then used to apply learning/conduct AFL. The lesson then progresses to cover alcohol and pregnancy (giving capacity for debate through think pa

A full differentiated lesson which introduces the Joule and how to calculate kJ's. Energy in different food products are compared by the students with questions and a DART activity to check for understanding. The energy requirements of different activities are then compared prior to a discussion on the balance of energy. Students then take part in a 'beat the grid' challenge answering as many differentiated questions as they can within 10 minutes. A worksheet exercise then takes place to apply a

This is a full differentiated lesson based which starts with a short video on blood components to incite interest. There is then a short talk on blood plasma, RBCs, WBC and platelets - students fill in a table as you progress through the slides. Students then apply their knowledge to a differentiated question grid challenge, and self/peer mark. The practical is based on students using microscopes to observe blood components (microscopes and pre-prepared slides required) and answering questions.

A full differentiated lesson which, in brief, uses video, animation and think pair and share activities to teach the concepts of vaccination and herd immunity. Student understanding is assessed/applied through the use of a differentiated question grid and past paper questions (answers included). The plenary is based on students reflecting upon their progress against the learning objectives.

This lesson covers the stomata, diffusion of gases, guard cells and transpiration. Student knowledge is applied to a differentiated question grid with a opportunity to ‘stretch’ towards a PP question - rewards are useful here! Students then take part in a simple practical where they use nail varnish, tape and microscopes to observe and count the stomata on a leaf, comparing the topside to the bottom side. A video is included to show how this is done but a demonstration is useful here. There is t