Makerversity DIY 10 Lesson Bundle

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Makerversity DIY 10 Lesson Bundle

165.00 GBP

Makerversity's simple and exciting lesson plans enable educators to incorporate making and hands-on activities into core curriculum subjects. Their first 10 lessons are designed to bring making and teamwork into the classroom simply and affordably. Each lesson comes as a digital download and can be adapted for ages 7-15.

Exciting Lessons

Hands-on Activities

The following lesson packs are included in the 10 lesson bundle. Each lessons comes with a teacher's guide, lesson plan, presentation, instruction sheets, exercise sheets and equipment list.

1. Design your own pavilion with CAD

The students will go through a fast-forward design process that includes orthogonal 4-view drawing, basic 3D CAD modelling and 3D printing. By taking part in this process, they will be able to connect an analogue sketch to a digital 3D drawing and back to a physical 3D printed model, observing how their design changes and evolves between these stages. Students will learn design, drawing and CAD skills and will experience what it looks like to be a designer-architect.

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2. Build your own sandtimer

This lesson uses bespoke, 3D printed components designed by Makerversity DIY, alongside everyday household items to enable children to produce a sandtimer. This is a great opportunity for pupils to hone fine motor skills through a simple hands on activity, whilst also practicing accuracy and measurement skills. The use of 3D printed components can open up discussion about production processes, materials and environmental or ethical implications of design.

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3. Make your own cookie cutter with Tinkercad

This lesson is an introduction to Tinkercad, a free to download, entry-level 3D modelling software. It explains the basic tools for building shapes and understanding three dimensional modelling. Explaining each of the tools methodically, the lesson engages pupils with each step to build their own simple and printable cookie cutter. 

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4. Build your own greenhouse

This lesson is a great way to engage pupils and pique their interest in natural sciences as well as manufacturing techniques. It empowers them in their learning environment by immersing them in the process of building a structure they can go on to use and explore with, an incredibly helpful lesson for many pupils. Using bespoke, 3D printed brackets designed by Makerversity DIY and basic, off the shelf materials, this lesson also encourages problem solving and team work.

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5. Make your own workshop stool

This lesson empowers pupils in their learning environment by handing responsibility over to them to build the furniture they work from. Using bespoke, 3D printed brackets designed by Makerversity DIY and basic, off the shelf materials, this lesson encourages problem solving and team work. It can also be used to demonstrate a real life application of several scientific and mathematical topics, which can be incredibly helpful to many pupils.

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6. Build your own workbench

This lesson empowers pupils in their learning environment by handing responsibility over to them to build the furniture they work from. Using bespoke, 3D printed brackets designed by Makerversity DIY and basic, off the shelf materials, this lesson encourages problem solving and team work. It can also be used to demonstrate a real life application of several scientific and mathematical topics, which can be incredibly helpful to many pupils.

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7. Make your own measuring tape

This lesson provides a simple way to explain the concept of using units of measurement to record distance, as well as how to convert between different units of measurement. It enables them to practice accuracy and measurement skills, fractions, division and ratios, as well as encouraging their discussion of around systems of measurement and how to gauge what units are appropriate for different sized objects or distances.

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8. Design your own wall graphics

This project will show you how to make an interactive wall graphic using the Touch Board and Electric Paint. Students can follow these easy instructions to learn how to cold solder and how sensors work. They will also use their creativity to create personal stories and narratives from visual images. The Touch Board is a microcontroller which works like an Arduino, but has some very powerful extra features. Electric Paint is a conductive material which can be painted, screen printed and stencilled onto practically any surface. 

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9. Design your own team uniform

This lesson is a simple and fun introduction to graphic art and visual identity. Pupils will work in teams to develop their own logos which can then be applied to any garment, overalls, toolbelt using a heat press or iron. It aims to teach pupils to use hand drawing as a tool to communicate ideas and to develop these ideas using a combination of manual and digital tools. The printed toolbelts will afford pupils the opportunity to apply these skills practically and finish with a functioning and useful outcome. 

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10. Make your own microscope

This lesson is based around a simple hack of a cheap peripheral webcam which, using very basic workshop tools, can be turned into a digital microscope when connected to a laptop or USB enabled tablet. By dismantling an object, observing how it has been assembled and how these components work together, pupils will gain a deeper understanding of the material world around them and can use this curiosity to explore how things work and to invent for themselves. 

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St Andrew's College, New Zealand

Vicki Pettit is a maths teacher and head of education at St Andrew’s college in Christchurch, NZ and wanted to reinforce her mathematics lesson by incorporating hands-on making and 3D printing. She saw our Makerversity DIY sand timer lesson as a perfect fit. 

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This lesson uses bespoke, 3D printed components alongside everyday household items to enable children to produce their very own timer. In this case, teacher and students opted to use salt rather than sand which shows some flexibility in the lesson and could be used as an opportunity to explore a discussion on materials, density, mass and alternative suitable materials that could be used to measure time. 

The lesson is a great opportunity for pupils to hone fine motor skills through a simple hands-on activity, whilst teaching accuracy, numeracy and measurement skills. Vicki reports her personal experience of the lesson as follows;

1. The starting point for me was finding an authentic reason and purpose for incorporating 3D printing within our Year 8 mathematics class. 

2. Coincidentally we were starting a new programme called Club 100 aimed at improving students’ basic facts in mathematics. Students move up through levels and this is displayed on a poster in class. I decided to have the students design and print their initials in tinkercad and this would serve as a token to move up the levels. 

3. This served as a beginning and simple task to learn the software.

4. Found and downloaded the Makerversity DIY sandtimer lesson from Printlab.

5. First print run determined that the files were not the right size for our bottles. So I shared the files with the class on OneDrive and the students set to work in groups adjusting and printing bottle caps to fit two different size bottles.

6. We discussed how to change to scale – holding down shift in tinkercad. Measured and documented each prototype and what needed changing. Next time I would ask students to rename files or number files to avoid reprinting the same file twice.

7. Next came the sleeve to fit over the top – the same process followed as above - also needed resizing.

8. Once we had the sizing correct we set to printing enough copies for each group to have a set. Then students got underway with measuring the salt, assembling in the timer, timing and adjusting. 9. Once students had succeeded in making a 1 minute timer, the challenge was to adjust for the following times: 3, 4, 5, 6 all for use in our Club 100 maintenance work.   

  

Vicki went on to say:

Students have loved making. It has been a great learning curve. The students are deservedly proud of their work.

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A very positive experience from the teacher, but what did the students think? As with many lessons, teachers can often hold enthusiasm, but a real test of the lesson lies with the student experience. Did they enjoy the lesson? Were they inspired and motivated to learn? Did they gain understanding and skills from the lesson? Below we have some valuable student input on the lesson that was conducted at St Andrew’s college.

Firstly from Joe and Arthur:

"In maths for the last 2 weeks we have been looking at volume and lots of other types of measurements leading up to making the salt timer. For a start we had to work out the measurements of the end of the bottle to make the screwed on lid. We then had to make a sleeve so the caps were secure and no salt would slip through the caps.  We also had to make a little circle washer that would only let a little bit of salt fall at a time so there was an even flow of salt. Next we assembled all of the equipment and put the timer together. We all estimated how much salt we thought we would need. We started off trying to make a one minute timer and we put 100g of salt in which clearly wasn’t enough and only turned out to be about 15 seconds. So we put in 300g but it was only 45 seconds. So we tried 400g and it worked perfectly. 

The hardest part would have had to have been making the lid for the bottle because it took us at least 5 tries. But then sometimes there would be failure prints where the lid fell apart. Also getting the perfect time was very difficult because it would never be the same every time. We all learnt a lot from this and worked out that it was almost impossible to get it the same time every go".

They concluded:

We all loved doing this project we all found it so much fun and in doing so we also learnt heaps. I’d certainly encourage other teachers to try this in their maths class

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And secondly from Bella and Scarlett:

"This experiment was to find out how much sand was needed to time one minute, then four minutes. Along the way we also had fun with 3D printing. Using the 3D printer, we made 2x pink caps (A), 1x black sleeve (B), 1x black washer (C). The hardest thing was probably doing the first measurement of salt because we had no idea how much salt it would take to time one minute. My favorite part of this experiment was being able to successfully make a 4 min salt timer, with coloured salt! 

The first thing we did was get two matching pump bottles and the 3D printed pieces, then we measured 500g of salt and put it into one pump bottle and then timed that. 500g equaled 3:20 minutes. Next we roughly divided 500g by 3 and got 157g. 157g measured exactly 1 minute on all the tests we did.  Now we had to find 4 minutes so we multiplied 157g by 4 and got 465. That timed 3:03 minutes. Then we added another 157g to get 621g and that was also perfect on all the tests we did". 

Overall this was a really fun experiment and we learnt a lot. Now we can use our timers for our daily maths quiz.

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