Experienced science teacher - 15 years of teaching. Commissioned resource author. Copy editor.
Prefer active student-led activities and so tend to design accordingly.
Save yourself heaps of planning time, for as little as £1.00. Funds generated from the sales of resource helps pay for the software and apps used to create my resources.
Experienced science teacher - 15 years of teaching. Commissioned resource author. Copy editor.
Prefer active student-led activities and so tend to design accordingly.
Save yourself heaps of planning time, for as little as £1.00. Funds generated from the sales of resource helps pay for the software and apps used to create my resources.
Objective: to gain a better understanding of covalent, ionic and metallic bonds through completing differentiated activities.
Suitable for KS4 all abilities.
For details of what is contained in this resource please see the attached photographs.
A piece of text summarising the main points related to the three types of bonding and a set of 9 leveled activities.
Suitable for foundation students, or those who need extra support with key words and definitions.
The resources consists of a 2 page keywords list (shown in image), a crossword with answers, and a support crossword with some of the letters filled in.
I've tried to keep the descriptions of the words as simple as possible without loosing their precise meaning and have included images to help students remember.
A range of resource to use with foundation groups.
Focused on the photosynthesis aspect of Bioenergetics, it is particularly useful to go over the key concepts of the topic.
This works well in groups for the card sort activity, or as an independent learning task when using the question activity. It is also a good revision resource with over 20 flash cards. Answers are provided.
This resource is most suited to KS3 biologist or as a KS4 lesson for struggling scientists.
The presentation has all of the information necessary for students, however a 2 page student text is available with all of the information on (and some extra for those you want to stretch)
There are a range of activities to choose from depending on your groups. These include:
- A set of notes in dyslexic font and comic sans.
- A ready-to-complete graphic organiser to help students describe and give examples of levels of organisations (text books or the notes above are suitable aids).
- A multiple choice question bank (11 questions) and answer sheet.
- A cloze word search for your struggling scientists with an answer sheet.
I have included a photograph of some of the resources.
Suitable for foundation students.
Objectives: To revisit/revise/summarise the reproduction and inheritance topic.
Running Time: 30 minutes
What do you get:
- A double sided A4 Knowledge Organiser, with keyword definitions, key point summaries, diagrams.
- A worksheet with 15 questions that vary in difficulty from grade 3 - grade 5 (see image)
- A help sheet for those who are really struggling.
- An answer sheet for peer assessment.
A basic lesson guide:
Do it now/starter: - Read Knowledge Organiser to remind students of key points
Main: - Students complete the worksheet - differentiate by giving the knowledge organisers to some and knowledge organisers and help sheets to others - higher achievers in the class shouldn't need either.
Peer Assess using the mark scheme.
Plenary: - multiple choice assessment (this will inform future planning) I would suggest using Quick Key App to scan the answer sheets and get instant feedback (https://get.quickkeyapp.com). Its free, quick and saves time marking (I've included the link above).
Objective: To recall and understand key terms
Running Time: 30 minutes
The activity consists of 2 sheets one for standard/higher demand and the other for lower demand.
Students match key words with definitions or for higher tier, students write their own definitions.
This can be stretched by asking students to link the concepts.
Objectives:
Understand the difference between alternating and direct current.
Describe the role of the live wire and neutral wire in the mains electrical supply.
How to read oscilloscope traces.
How to use an oscilloscope.
Suitable for higher or foundation.
This is a complete lesson and includes:
-Starter (on presentation)
Complete presentation that clear explains and links to the objectives
Plenary (on presentation)
A worksheet that focuses on the objectives
A feedback sheet that includes WWW and EBI as well as text to help them answer the feedback questions.
I use this in conjunction with a demonstration of the oscilloscope and signal generator, although it is not essential as the presentation is very detailed.
A complete lesson and extra activities.
Objectives:
Describe how the ear works
Recall the parts of the ear and their functions.
Evaluate Models
Your pack includes a presentation, tarsia puzzle, cut and paste jigsaw, worksheet.
Learning Intention: To understand how light travels through the eye, the form and function of parts of the eye.
This is a highly effective way of engaging students and ensuring deep learning.
After teacher instruction or after given text on the topic students cut out the cards and then paste them into the correct place on the organizer template.
I normally run the activity as follows:
Put the answer slide up on the board for 30 seconds for students to read - no pens - just reading!
Students have 10 minutes to place their cards
Put the answer slide up on the board for 15 seconds, but students may not touch their work.
students are given a final 5 minutes to correct or continue with their organizer
Organizer is checked against the answers.
Students can then be given a meta-cognitive extension where they think about where they got stuck and why, I usually just ask them to discuss it in pairs.
The resource is differentiated so you have one for your struggling scientists to use.
Learning Intentions
1 - Recall the factors affecting rate of chemical reaction
2 - Understand the difference between collision theory and activation energy
3 - Understand how to calculate the mean rate of a reaction and surface area:volume ratio.
Suitable for Black and White Printing
Additional Resources: None
Running Time: 30 minutes
The students enjoy this activity as I allow them to work in pairs and decide on which 4 out of the 8 tasks they would like to do.
This gives students sense of ownership of the task and encourages engagement.
The activity is based on the Randy Bamboo’s “Big Eye” foldable with the large oval sections each containing a piece of text or instructions on calculations. The paper is then folded in half long-ways as shown above. There is a task or question corresponding to each number. (Commercial License has been purchased from Randy Bamboo).
I usually run this activity in pairs after a short introduction of the topic. AQA users, I usually use this before doing the required practical to give them a broad understanding of some of ideas behind the RP.
Most of the tasks are evidence based and have been adapted from the Edutopia article entitled “Dipsticks: Efficient ways to check for understanding”.
Thank you for taking the time to view my resource. Please follow me for lots more active and engaging resources!
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Objective: to understand the process of and equation for photosynthesis, know that photosynthesis is endothermic
Suitable for all - questions and tasks are differentiated.
The resource is designed to be used in conjunction with textbook or notes. It includes, an activity selection sheet and a correct the mistakes worksheet. Please see the photographs attached for more information.
Black and white activity sheet is included.
Designed to put the ideas in a clear and concise manner for those who struggle with literacy or science.
The reading age of this text is around 11 years.
This is a very effective activity for higher achievers that need to stretch their thinking.
The questions develop higher order thinking skills and has a metacognitive facet that works best when, while walking the floor, you ask students to identify the skill that they are using.
The resource is made up of a key word and definition match, deep thinking questions, labeling activity and prioritising (diamond 9 style) activity.
How to run the activity:
After teacher input, either reading text or teacher explaining. Students complete question 1.
It is very important that, at this point, the work is corrected so that any misconceptions can be cleared up
Using only information in question 1 and their recall skills they attempt to complete the rests of the worksheet – this is best done in pairs.
The plenary should consist of questions such as:
What part of the activity did you find the hardest?
why was it difficult?
how did you overcome the difficulty?
Simplified text for your SEN, EAL, or reluctant readers.
Topics include: Sexual and Asexual Reproduction, DNA and Genome, Inheritance in Action
Images for all of the pages you are purchasing are available in the preview.
They print well in colour or black and white.
It allows struggling scientists to access text with all the key information, but with a lower overall reading age. On average the text is suitable for those with a reading age of 11 years or greater (using Flesch-Kinkade).
The diagrams are clear and uncluttered.
Content is focused on key points.
Each resource is approx 2 A4 pages.
Suitable for KS3 or Low Achieving KS4.
The resource focuses on understanding the differences between atoms, elements, compounds, mixtures, molecules.
The task includes a definition (either in students’ own words or from suitable text), explain using a diagram, apply by linking terms.
The activity is best done after a teacher explains the concepts, or with suitable textbooks.
Running time is approximately 30 -40 minutes.
This is a cut and paste activity (a paper investigation).
Students cut out the parts and then glue them in to make a diagram. This is particularly suitable for lower to middle attaining students who need to do more recall on investigations.
A worksheet is provided that focuses on observations, risks and comparing the paper model to the real investigation.
The cover image is courtesy of one of my SEN year 11 students