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Mr Science's Shop

Average Rating3.53
(based on 19 reviews)

The author has over 20 years’ experience of teaching and has worked in wide range of schools with very diverse student groups. He holds an MSc in “Education and Technology in Science”. This lessons and scheme of work have been successfully trialed and refined in the classroom environment.

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The author has over 20 years’ experience of teaching and has worked in wide range of schools with very diverse student groups. He holds an MSc in “Education and Technology in Science”. This lessons and scheme of work have been successfully trialed and refined in the classroom environment.
A digital version of the Year 8 Biology  B2 3.1  "Competition and Adaptation" lesson.
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A digital version of the Year 8 Biology B2 3.1 "Competition and Adaptation" lesson.

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This lesson was written for middle/top sets. The lesson is designed to provoke discussion and thought, especially when you ask the class to identify the native British Squirrel!! The narrative is loose so the lesson can follow the students questions but the sequence ensures that the learning objectives will be covered. At the end, if you have time, there are 'book-work' references (to consolidate the learning) and also a word-search as a 'new vocabulary' plenary. An excellent resource for Science teachers who want a colourful engaging lesson written by an experienced science teacher. The slides are colour coded by topic, contain All/Most/Some differentiated learning objectives, the current date and with 28-32 point Ariel font to enhance legibility. The Author has over 20 years’ experience of working in a range of Schools and was awarded a Master’s Degree in 2008 in “Education and technology in Science” by Bristol University. This lesson (and scheme of work) has been successfully trialed in a state Academy and has been used (and improved each time) over three different classes.
A digital version of the Year 7 B1 2.6 "Muscles" lesson.
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A digital version of the Year 7 B1 2.6 "Muscles" lesson.

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A digital version of the B1 2.6 Muscles lesson in the Year 7 Science Activate book 1. The lessons are differentiated to cater to a less academic audience than the original texts were intended. The Activate 1 book has a reading age of 11-12 years, however, many year 7 students have a reading age below their chronological age and these Power Points were written with those students in mind. This lesson includes a KAHOOT quiz as a plenary. Good for Science teachers who want a colourful engaging lesson written by a science teacher with 20 years experience. The slides are colour coded by topic, contain All/Most/Some differentiated learning objectives, the current date and with 28-32 point Ariel font to enhance legibility. Both the presentations and the hyperlinked KAHOOT quizzes are fully customisable to suit your particular audience. The Author has over 20 years’ experience of working in a range of Schools and was awarded a Master’s Degree in 2008 in “Education and technology in Science”. This lesson (and scheme of work) has been successfully trialed in an academy having been used (and improved) with three different classes. If there are any typos, inaccuracies or comments you would like to report – please contact me as all feedback is most welcome. Enjoy!
Year 7 Activate 1 Chemistry  C1.3  Chemical Reactions Scheme of work.
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Year 7 Activate 1 Chemistry C1.3 Chemical Reactions Scheme of work.

9 Resources
This bundle contains all six lessons from this topic, two KAHOOT quizzes, two bespoke word searches and two practicals (complete with labelled diagrams, blank results table and safety information). At the end there is also a revision lesson and a DIRT feedback lesson (based on real students scripts) showing the common errors and how to avoid them. A complete digital Scheme of work.
A digital version of the Year 9 P1.10 Ionising radiation lesson.
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A digital version of the Year 9 P1.10 Ionising radiation lesson.

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This resource contains a 7-slide theory lesson with a key word search. The lesson contains an introductory slide explaining the lessons learning objectives. Slides number 2 explains what ionising radiation is. Slide number 3 introduces the 3 types of ionising radiation, alpha beta and gamma. Slide 4 discusses how ionising radiation can damage DNA and give rise to mutations and possible cancers. Slide 5 discusses how even UVC and X-rays can also be classed as ionising radiation (but not to the same extent as gamma rays). Slide 6 is the book-work reference. Slide 7 is a prompt to give the keyword search out at the end of the lesson. Slide 8 contains the image credits. If you liked this lesson, please don't forget to review it and feel free to browse my shop where there are a few more.
A digital version of the Year 9 P1.15 Life cycles of stars lesson.
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A digital version of the Year 9 P1.15 Life cycles of stars lesson.

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This resource contains a 21-slide theory lesson and a Kahoot Quiz as a plenary. Slide number 1 is an introductory slide explaining the lessons learning objectives. Slides number 2 defines Stellar Nebulae as clouds of dust and gas where stars are ‘born’. Slide number 3 explains how Stellar Nebulae collapse due to gravity to form a protostar. Slide 4 looks at Main sequence stars and explains how our sun is a main sequence star. Slide 5 & 6 look at what happens when the core of a main sequence star runs out of hydrogen and then helium to become less bright; forming a red giant. Slide 7 shows that when a red giant finally collapses then its outer layers shed off and the remains are called a white dwarf. Slide 8 shows that the outer layers of the red giant that drift off into space become planetary nebulae. Slide 9 looks at the different life-cycle of massive stars and begins by comparing the relative sizes of some known stars. Slide 10 and 11 show how massive stars become red super-giants – using Betelgeuse in the constellation of Orion as an example. Slide 12 looks at what happens when Red Super-giant stars start to die. Slide 13-15 looks at Supernova’s - the death of Red Super-giant stars. Slide 16 and 17 look at the two possible outcomes post supernova. Giant stars become either a Neutron star or a Black hole (depending on the size of the giant star). Slide 18 and 19 are much needed summaries of both Star life-cycles. Slide 20 is the book-work reference with two hyperlinked you tube videos of Stars life cycles. Slide 21 contains the hyperlink to a Kahoot Quiz based upon this lesson Slide 22 contains the image credits. If you liked this lesson, please don't forget to review it and feel free to browse my shop where there are a few more.
A digital version of the P1.18 Infra sound lesson
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A digital version of the P1.18 Infra sound lesson

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This resource contains a 10-slide theory lesson and a “sound wave” revision worksheet. Slide number 1 is an introductory slide explaining the lessons learning objectives. Slide number 2 is an animated GIF reminder that sound is a longitudinal wave. Slide 3 is an excellent summary image to show the frequencies of infrasound, sound and ultrasound and the animals that can use each one. Slide 4 is a revision of basic wave structure and terminology. Slide 5 is a prompt for the students to use the revision worksheet on sound. Slide 6 looks at some of the large mammals that can communicate over hundreds of Km using infrasound. Slide 7 explains the volcanic eruptions also produce infrasound which can be remotely monitored. Slide 8 is the book-work reference. Slide 9 contains the image credits. If you liked this lesson, please don't forget to review it and feel free to browse my shop where there are a few more.
A digital version of the Year 9 P1.17 Red Shift lesson
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A digital version of the Year 9 P1.17 Red Shift lesson

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This resource contains a 10-slide theory lesson, a data analysis task and a key word search on Stellar Evolution. Slide number 1 is an introductory slide explaining the lessons learning objectives. Slide number 2 contains an interactive cartoon flash animation which demonstrates the Doppler Effect brilliantly. Slide 3 asks students to apply the Doppler Effect to light waves rather than sound waves. Slides 4 and 5 provide the answer to the previous question by explaining the concept of ‘red shift’ and ‘blue shift’. Slide 6 summarises the red shift/blue shift with a hyperlinked YouTube video. Slide 7 is a data analysis question for the students to use Hubble’s red shift data to compare the speed of galaxies with their distance away from us and draw a conclusion. Slide 8 is the book-work reference. Slide 9 is a prompt to hand out the keyword search to the students Slide 10 contains the image credits. If you liked this lesson, please don't forget to review it and feel free to browse my shop where there are a few more.
A digital version of the P1.11 The Universe lesson
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A digital version of the P1.11 The Universe lesson

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This resource contains a 7-slide lesson and includes the classic practical “The solar system in your schoolyard”, a key word search and a card sort which can be used to order the planets of our solar system OR to order the objects in the universe in terms of their relative sizes. The lesson contains an introductory slide explaining the lessons learning objectives. Slides number 2 explains that our sun is one of millions that make up our galaxy – the Milky Way. Slide number 3 explains that the all the different galaxies make up the universe. Slide 4 looks at our own solar system and contains a hyperlink to the classic practical “The solar system in your schoolyard”. Slide 5 also contains a hyperlink to a 2.23 minute you tube video which compares the sizes of known stars. Slide 6 is the book-work reference. Slide 7 is a prompt to give the keyword search and\or the card sort activity as a plenary at the end of the lesson. Slide 8 contains the image credits. If you liked this lesson, please don't forget to review it and feel free to browse my shop where there are a few more.
A digital version of the Year 9 P1.16 Theories about the Universe
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A digital version of the Year 9 P1.16 Theories about the Universe

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This resource contains a 13-slide theory lesson. Slide number 1 is an introductory slide explaining the lessons learning objectives. Slide number 2, 3 and 4 try to explain something which is really beyond our comprehension. Slide 5 introduces Edwin Hubble whose work on the expanding Universe fist gave rise to the Big Bang theory. Slide 6 introduces Sir Fred Hoyle who interpreted Hubble’s work differently to give us an alternative theory – the Steady State Theory. Slide 7 summarises the competing theories. Slide 8 and 9 look at the CMB evidence that supports the Big Bang Theory. Slide 10 summarises the competing theories and the evidence to suggest that the Big Bang is our current preferred theory. Slide 11 is the book-work reference. Slide 12 contains the image credits. If you liked this lesson, please don't forget to review it and feel free to browse my shop where there are a few more.
A digital version of the Year 9 P1 1.14 Alien Life lesson
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A digital version of the Year 9 P1 1.14 Alien Life lesson

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This resource contains a 7-slide theory lesson Slide number 1 is an introductory slide explaining the lessons learning objectives. Slides number 2 makes a distinction between alien life forms and intelligent alien life Slide number 3 explains the concept of the Goldilocks planet where water may be found in a liquid state – a probable prerequisite for life. Slide 4 looks at the recent discovery of “Trappist 1” solar system with its multiple Goldilocks planets and contains a hyperlink to the NASA press release video on You tube. Slide 5 looks at our attempts to send robot landers to other planets and looks at the example of a tiny robot Lander called Phoenix to Mars to look for evidence of life. Slide 6 looks at the SETI program which analyses Radio waves to look for signals from intelligent alien life. Slide 7 is the book-work reference. Slide 8 contains the image credits. If you liked this lesson, please don't forget to review it and feel free to browse my shop where there are a few more.
A digital version of the Year 9 P1.13 Exploring the Universe lesson
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A digital version of the Year 9 P1.13 Exploring the Universe lesson

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This resource contains a 15-slide theory lesson. It has been written to a highly visual lecture using some stunning images taken by the Hubble telescope. The lesson contains an introductory slide explaining the lessons learning objectives. Slides number 2 shows the classic EM absorption graph as a way of introducing the necessity of space telescopes to avoid Earth’s atmospheric distortion. Slide 3 introduces The Solar Dynamics Observatory which can capture images of the sun’s UV output. Slide 4 is an example of the Sun’s UV output at a wavelength of 17.1nm. Slide 5 contains a hyperlink to a 4:36 second video from NASA showing some of the most amazing images/films taken by The Solar Dynamics Observatory over the past 5 years. Slide 6 and 7 introduce the Hubble telescope. Slide 8 shows an image of the malformed mirror that was used in the original Hubble telescope. Slide 9 shows an image of the space shuttle service mission sent to correct the faulty optics of the Hubble telescope. Slide 10 shows the “before and after” images from the Hubble telescope. Slides 11-12 show some of the iconic images captured by the Hubble telescope. Slides 13-14 discuss the implications of the Hubble Deep Field image. Slide 15 contains the book-work reference. Slide 16 contains the image credits. If you liked this lesson, please don't forget to review it and feel free to browse my shop where there are a couple more.
Year 9 - a digital version of the Edexcel P1.19 Ultrasound lesson
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Year 9 - a digital version of the Edexcel P1.19 Ultrasound lesson

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This resource contains a 13-slide theory lesson. Slide number 1 is an introductory slide explaining the lessons learning objectives. Slide number 2 is an animated GIF reminder that sound is a longitudinal wave. Slide 3 is an excellent summary image to show the frequencies of infrasound, sound and ultrasound and the animals that can use each one. Slide 4 is a revision of basic wave structure and terminology. Slide 5 looks at how sound waves can reflect to give an echo and explains how most ultrasound applications use this ‘echo’ to create an image. Slide 6 and 7 explain how ultrasound sonar is used to detect fish\ submarines under the water. Slide 8 explains how bats use echolocation – ultrasound clicks to detect prey in the dark. Slide 9 looks at a commercial, possibly unethical use of ultrasound to keep teenagers from congregating. Slide 10 and 11 explain how ultrasound is used to look at an unborn fetus to detect the gender/abnormalities. Slide 12 is the book-work reference. If you liked this lesson, please don't forget to review it and feel free to browse my shop where there are a few more.