Hero image

Dr. M Nicklin's Shop

Average Rating4.68
(based on 489 reviews)

The resources included here are designed to be stimulating, challenging and adequately differentiated. Time is precious to a teacher, and these 'oven ready lessons' include everything you need at a cost effective price. The resources included are perfect for subject specialists and non-specialists alike, and are produced through a modern/professional use of PowerPoint which utilises graphics, animation and timers (etc.) to promote maximum progress during lessons.

198Uploads

390k+Views

828k+Downloads

The resources included here are designed to be stimulating, challenging and adequately differentiated. Time is precious to a teacher, and these 'oven ready lessons' include everything you need at a cost effective price. The resources included are perfect for subject specialists and non-specialists alike, and are produced through a modern/professional use of PowerPoint which utilises graphics, animation and timers (etc.) to promote maximum progress during lessons.
Energy resources - complete lesson (KS3)
matt_nick1inmatt_nick1in

Energy resources - complete lesson (KS3)

(25)
A full lesson based on the Activate 2 (P2.6) SOW but can be used for others. The lesson covers fossil fuels, power plants and alternative energy sources using a range of activities. All answers are incorporated into the slides facilitating peer/self marking and timers are used to promote pace. The information hunt and the worksheet activity are taken from other TES authors. The plenary is an exciting 'car race quiz' where students are put into groups and compete the reach the finish line first, pre-prepared questions/answers included. I usually take the answer from the group to put their hand up first, those who answer incorrectly are frozen out until the next round. A reflective plenary is also included as a back up in case the lesson progresses faster than expected. If you like this resource please visit my shop for other 'oven ready' lessons: https://www.tes.com/teaching-resources/shop/matt_nick1in
Uses of electromagnets - complete lesson (KS3)
matt_nick1inmatt_nick1in

Uses of electromagnets - complete lesson (KS3)

(30)
A complete lesson based on the Activate 2 (P1.8) SOW but can be used for others. Students are introduced to the uses of electromagnets with examples, video is used to incite their interest further. An introduction to motors is included (a demonstration is useful here). Students then take part in an information hunt to apply and reinforce their learning - answers included. Using Ipads students then conduct independent research on recycling and electromagnets, producing a leaflet which can be judged by peers. Students then take part in a Kahoot quiz on the topic of electromagnets (free log in and Ipads required). The plenary consists of students reflecting upon their progress against the learning objectives, a soft toy can be thrown around to elect who reads out their answer. HW sheet and info hunt taken from TES. This can be a very fun and engaging lesson in a well managed class! If you like this resource please visit my shop for other superior lesson: https://www.tes.com/teaching-resources/shop/matt_nick1in
Circuits, current and potential difference revision - complete lesson (KS3)
matt_nick1inmatt_nick1in

Circuits, current and potential difference revision - complete lesson (KS3)

(10)
A full lesson based on the Activate 2 (P2.1) SOW. This is a revision lesson which covers circuits and current, potential difference and series and parallel circuits. Student understanding is checked with 2 planner card activities and learning applied to a simple worksheet task (taken from other TES author). Students can 'stretch' to attempt a GCSE PP question. All answers included. If you like this resource please visit my shop for more: https://www.tes.com/teaching-resources/shop/matt_nick1in
Activity and half life - Complete lesson (GCSE 1-9)
matt_nick1inmatt_nick1in

Activity and half life - Complete lesson (GCSE 1-9)

(8)
A full lesson based on the new AQA (P7.5) SOW but can be used for others. The lesson covers activity, count rate and the Geiger counter. Students are then taught how to calculate half life from a graph using examples. A worksheet is then completed (taken from another TES author). Students then complete a simple practical to model half life; they roll small cubes (or dice) and take the cubes that land silver side up (or on the number 1) out of play. Students plot a graph and answer questions relating to the practical. There is then a final grid challenge that students can use to assess their progress against the learning objectives. All answers are incorporated into the sides, timers are used to promote pace. Video used and radiation sickness discussed in order to incite interest. If you like this resource visit my shop for more: https://www.tes.com/teaching-resources/shop/matt_nick1in
Pressure on solids - complete lesson (KS3)
matt_nick1inmatt_nick1in

Pressure on solids - complete lesson (KS3)

(10)
This lesson is based on the Activate 2 (P3.5) SOW but can be used for others. Covers pressure in relation to force and weight, calculating pressure and the relationship between area and pressure. A simple practical is included where students investigate the indentation of weights within sand when applied on a different numbers of supports. Ranked questions tailored to this practical are then conducted (answers included). The plenary involves students reflecting upon their progress against the learning objectives. If you like this lesson please visit my shop for other more comprehensive resources: https://www.tes.com/teaching-resources/shop/matt_nick1in
Motions graphs - complete lesson (KS3)
matt_nick1inmatt_nick1in

Motions graphs - complete lesson (KS3)

(7)
A full differentiated lesson based on the Activate 2 (P3.2) SOW but can be used for others. The lesson includes the calculation of speed (with whiteboard activity) and interpreting/drawing motion graphs with a range of activities. A support sheet is included for SEND 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.tes.com/teaching-resources/shop/matt_nick1in
Resistance, magnets and electromagnets - revision lesson (KS3)
matt_nick1inmatt_nick1in

Resistance, magnets and electromagnets - revision lesson (KS3)

(5)
A full revision lesson based on the Activate 2 (P1.5-1.8). Starter and practical exercise taken from other TES authors. Lesson covers calculating resistance, PD and current (triangle method), permanent and temporary magnets (including electromagnets). Answers to each exercise are incorporated through animation. Use as a follow on lesson from another free revision resource found in my shop (circuits, current and potential difference revision). Alternatively you could chop and stitch these together into a single lesson. If you like this resource please visit my shop for more: https://www.tes.com/teaching-resources/shop/matt_nick1in
Energy and temperature - complete lesson (KS3)
matt_nick1inmatt_nick1in

Energy and temperature - complete lesson (KS3)

(3)
This is a full lesson based on the Activate 2 (P2.3) SOW but can be used for others. The lesson covers thermometers, differentiating between energy and temperature, particle diagrams and thermal energy, and the transfer of energy. Student understanding is assessed with a differentiated question grid challenge. There is then a simple practical activity where students observe and record what occurs when solids, liquids and gases are heated in warm water - gas syringes, petroleum jelly, ice, test tubes, thermometers and beakers are required. Students then complete 5 questions projected on the board which relate to the practical activity. The plenary is based upon students reflecting on their progress against the learning objectives.
Series and parallel circuits - complete lesson (KS3)
matt_nick1inmatt_nick1in

Series and parallel circuits - complete lesson (KS3)

(2)
A lesson based on the Activate 2 (P1.4) SOW but can be used for others. The lesson includes an introduction to series and parallel circuits, and explains their differences in terms of current and potential difference. A whiteboard quiz then follows (AFL) prior to a practical exercise. For the practical exercise simple circuit components are required; battery packs, voltmeters, ammeters, connection wires, bulbs and switches. Additional 'stretch' questions are included in the instance that the students progress speedily through the practical, with the answers incorporated into the slides. The plenary is based around student reflection on their progress against the learning objectives. Students can be elected to read out answers and this can be 'pop corned' on between peers.
Energy and the environment - complete lesson (GCSE 1-9)
matt_nick1inmatt_nick1in

Energy and the environment - complete lesson (GCSE 1-9)

(3)
A full differentiated lesson based on the new AQA (P3.4) SOW. The lesson covers issues with fossil fuels, the advantages and disadvantages of nuclear energy and outlines the Chernobyl disaster (mainly to incite interest). A differentiated question grid is used to apply learning and to conduct AFL (answers included). The lesson then covers the advantages and disadvantages of renewable energy resources prior to a GCSE PP question (answers included) facilitating further application of knowledge and AFL. The plenary involves students reflecting upon their progress against the learning objectives.
Food and fuels - complete lesson (KS3)
matt_nick1inmatt_nick1in

Food and fuels - complete lesson (KS3)

(1)
A full differentiated lesson based on the Activate 2 (P2.1) SOW but can be used for others. This lesson 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 and reinforce knowledge based on the content of the lesson. The plenary is based on students reflecting upon their progress against the learning objectives. This lesson includes timers and animation to promote pace, and all answers are included in the slides to facilitate self/peer marking. This lesson also promotes the correct use of literacy and numeracy through the activities included.
Pressure in gases - complete lesson (KS3)
matt_nick1inmatt_nick1in

Pressure in gases - complete lesson (KS3)

(1)
A full differentiated lesson based on the activate 2 (P3.3) SOW but can be used for others. The lesson covers pressure in gases and the effects of volume and temperature. Student understanding is checked with a differentiated question grid challenge. Atmospheric pressure is introduced ahead on the 'crushing can' demonstration - very easy; a can, water, tongues and bunsen burner is required (youtube for demo). Students then reorder statements to explain their observations. The effect of altitude on gas pressure is then discussed with use of examples. The plenary is an 'articulate' activity where students make logical and scientific speeches making use of key words from the lesson. Those with the most key words used can be given a reward. This lesson includes all answers for self/peer assessment and no additional worksheets are required. The use of animation and the choice of topics to explain each theory were chosen with an emphasis on promoting a love of learning. Timers are included to promote pace.
Charging up (static) - complete lesson (KS3)
matt_nick1inmatt_nick1in

Charging up (static) - complete lesson (KS3)

(2)
A complete, differentiated lesson on static, with content based on the Activate 2 (P1.1) SOW. The lesson involves an introduction to charge, atoms and subatomic particles. Students are then demonstrated static electricity using balloons and a Van de Graff generator. The students can be included into to this demonstration to make things fun, if it is not possible to use this equipment then a video is included within the slides. Class wide AFL is conducted through the use of planner (red, green and yellow) cards. Students are then taught the concepts of lightening and electric fields prior to a differentiated 'beat the grid challenge', where students answer as many ranked questions as they can in 10 minutes. The plenary is based upon self refection against the learning objectives. Students can be elected to read out answers through throwing a soft toy between peers. No additional worksheets or resources required.
Reflection - complete lesson (KS3)
matt_nick1inmatt_nick1in

Reflection - complete lesson (KS3)

(1)
Full, differentiated lesson with everything you need for the topic of reflection. Tailored around the activate SOW and used within a year 7 class, can be applied to other SOW and year groups. Use of timers to promote pace and powerpoint animations to support Q/A during self/peer marking of answers.
Drag forces and friction - complete lesson (KS3)
matt_nick1inmatt_nick1in

Drag forces and friction - complete lesson (KS3)

(1)
A full, differentiated lesson on the topic of drag forces and friction. The lesson is based on the activate 1 SOW and so is pitched to a year 7 group. The lesson includes a think pair and share, DART activity, simple practical activity (requiring different surfaces and a newtonmeters), differentiated question grid challenge and a reflective plenary. All answers are incorporated into the slides via animation and timers are included to promote pace.
Detecting sound - complete lesson (KS3)
matt_nick1inmatt_nick1in

Detecting sound - complete lesson (KS3)

(1)
This lesson is based on the Activate 1 (P2.4) SOW but can be used for others. The lesson begins with the structure of the ear, and how we hear. Students complete their handout of the ear as you progress through the first few slides prior to a summary and correction of answers. There is then a 'gap fill' DART activity to check for understanding. The lesson then progresses to damage of hearing and how we measure sound (dB). The microphone is then compared to the ear, students must then answer a 'focus writing' task where they use their knowledge from the lesson to compare and contrast the ear and the microphone. The plenary is based on students reflecting upon their progress against the learning objectives, and sharing their answers with peers - throwing round a soft toy is a fun way of doing this. All answers/animations/timers included within the slides.
Refraction - complete lesson (KS3)
matt_nick1inmatt_nick1in

Refraction - complete lesson (KS3)

(1)
Topic of refraction for KS3, tailored to activate SOW and pitched to a year 7 class. Can be used above or below this criteria depending on ability. Lesson is differentiated and includes timers/animations for pace and Q/A during self/peer marking.
The solar system - complete lesson (KS3)
matt_nick1inmatt_nick1in

The solar system - complete lesson (KS3)

(1)
This lesson is based on the activate 1 SOW and so is pitched to a year 7 class. The lesson includes an introduction to the solar system through video, think pair and share and a simple DART activity. Students then complete an exercise where the distance between planets and the sun is modelled through folding and annotating paper. A graph drawing exercise is included as an extension, where students link the distance from the sun to temperature.
Specific heat capacity - complete lesson (GCSE 1-9)
matt_nick1inmatt_nick1in

Specific heat capacity - complete lesson (GCSE 1-9)

(0)
A full lesson covering specific heat capacity based on the AQA SOW. Students are scaffolded up to using the equation within calculations prior to a practical. The (required) practical follows the AQA SOW but employs voltmeters and ammeters instead of Joulmeters. Awards can be given to students who calculate the closest SHC for aluminium.