Kano

Kano

http://us.kano.me/

Year level: 4

Subject: Technology

Strand: Digital Technology

Description

Kano is a fantastic computer and coding kit for children ages 6 and upwards. Students actually get to make a computer, learn what’s inside, play with the code and hopefully spark a lifelong passion for computing and the arts! Kano is a Raspberry π based project, which also utilises Sonic Pi for the music coding component.

Below is a video introducing Kano…

As can be seen by the video, Kano has been constructed to engage students immediately, showing them how a computer is designed and engineered on a basic level. As stated by Luke, it’s like putting Lego together. Students once into the coding phase can then learn to code and create games, hack into well known platforms like Minecraft and make music.

Here is another great video showing Luke using Kano.

There are great resource packages designed and built for educator and schools, which can be aligned with the school curriculum and provide great levels of support and training for the teachers. There is also the ability for the students to share their work or projects through portals and also check out what other students have created!

Digital Technologies

Link to  SCSA (School Curriculum and Standards Authority)

Looking at the year 4 syllabus Kano could be introduced to explore digital systems in terms of their components and the other peripheral devices. Students learn how to manipulate and interpret data which allow students to develop the data to represent and communicate ideas. This helps to develop computational thinking.

Some Year 4 Content descriptors that would be covered by using Kano:

Knowledge & Understanding

  • Digital systems and peripheral devices are used for different purposes and can store and transmit different types of data (ACTDIK007)

Digital Implementation

  • Use simple visual programming environments that include a sequence of steps (algorithm) involving decisions made by the user (branching) (ACTDIP011)
  • Work with others to create and communicate ideas and information safely, using agreed protocols (netiquette) (ACTDIP013)

You can also easily see how using the Kano package can link in with the general capabilities:

  • Literacy
  • Mathematics
  • Science
  • ICT
  • Creative thinking

Tynker

 

 

https://www.tynker.com/

Subject: Technologies

Strand: Digital Technology

Year level: 1-6

 

Description:

Tynker is a creative computing platform where students are able to learn how to program and build Apps, games and more. It is self paced and is easily incorporated into the Western Australian school curriculum (School Curriculum and Standards Authority, Government of Western Australia) in the subject of Technologies particularly the strand of Digital Technologies.

Students are encouraged and engaged to create games and animated projects using visual coding and provides them with the knowledge foundations in programming and computational thinking which will then help their progress into mainstream object orientated programming. It has powerful kid friendly tools and guided, independent instruction for your students.

The resources and instruction that are available to teachers are also fantastic. It has ready to use, grade specific lesson plans and links to STEM project templates for Math, Science, ICT and English to name a few.

Tynker can be used across different PC platforms (Windows or Mac) and mobile devices running IOS or Android.

Links:

Below are a link to Tynker’s website which will allow a free initial sign up for schools to look at coding across Year levels 1 to 8. This will introduce your class to visual programming. In this course, students get introduced to basic programming as they create interactive stories, design animations, and make mini-games in Tynker’s game-like interface. Each lesson is designed for a class period of 45-60 minutes.

https://www.tynker.com/

https://www.tynker.com/school/courses/show?id=0-programming-100

https://www.tynker.com/play?p=518173ef75209f6e64000198

This is a great video explaining why everyone loves Tynker!

 Sub-strands and Content Descriptors:

Tynker’s courses cover sub-strands and many different Content Descriptors in each year group such as;

Year 1

Strand: Knowledge and Understanding

Representation of Data:

  • Data can have patterns and can be represented as pictures, symbols and diagrams (ACTDK002)

 

Strand: Process and Production Skills

Collecting, Analysing and Representing Data

Present data of any kind using a variety of digital tools (ACTDIP003)

Plant Tycoon: How to replace a real life garden with a virtual one.

Plant Tycoon: How to replace a real life garden with a virtual one.

Learning Area

Design and Technology

Year Level

Although this game is targeting the curriculum for the younger years; unless you are experienced with playing the game I suggest it be used by years 3/4 to revisit the concepts learned in earlier years.

Strand

Technologies Contexts

Sub-Strand

Food and fibre production – Plants and animals used for production have basic needs, such as food/nutrients, water, space, protection (ACTDEK003)

From from the School Curriculum and Standards Authority (SCSA).

Link to the Resource

http://www.bigfishgames.com/games/2135/plant-tycoon/?pc

Can be purchased online for $10 through Big Fish Games; however, once it is purchased once it can be downloaded as many times as needed!

General Capabilities

Information and communication technology (ICT) capability and Critical and Creative Thinking.

Links to Other Learning Areas

Science, Literacy

Using this Resource

Plant Tycoon is perfect for classrooms that want to teach the values of planting a garden but simply do not have the space or resources. The game allows students to create their own garden in a virtual world. They can water and fertilise their plants while also making sure they are getting enough sun. Plant Tycoon also allows the students to experiment with cross-pollination – seeing how the DNA of plants can combine in a simple way and make new creations come to life. Although creating a physical class garden would be ideal, not every class can do this. Plant Tycoon allows the younger years to learn about the basic needs of plants and the production of growing different types in real time which is different to other garden-based virtual realities. It also incorporates the learning of sustainability and economics with plant production; displaying to the students how plants need to be bought and sold to increase revenue. This resource is cheap and its real-time running makes it feel more true-to-life. It is relaxing, challenging and students can create at their own pace.

A Quick Video

Below is a video of some in-game action. Don’t be deterred if it looks too complex – it is much simpler than it looks! From 0:00-1:20 the game shows how  ‘people’ purchase the plants. This video is just to display how interactive the game is and how many different plants can be created; but as the teacher it is possible to restrict the game play to just growing the plants if you so desire.

Class Dojo

Year: Lower to upper primary

What is this? Class Dojo is a app that aids with behaviour management, as it helps monitor and guide student behaviour. It can be used by both the teacher and the students. It enables students to become responsible for their own actions, reactions and behaviours and can also help develop students’ ability to self regulate. This app can help create a sense of belonging in the classroom as students are shown as a whole class and can even be broken down into groups. This app can be used for more than just behaviour management however, as it can be used as a timer, as an attendance record, track homework and it has an instant messaging system to be used to keep in contact with parents. Parents can ask queries and seek responses from the teacher, and they can even be updated through the class blog. All students have the ability to post on the class blog but posts require teacher approval. In this way students are able to have access to their dojo from home, and the site even provides custom QR codes for students to scan in order to reach their dojo. As of last year, teachers are now able to use the site to send other teachers resources, which keeps the resources in one easily accessible account. The site also provides an introduction video for students and a letter to parents explaining how the app works. Not only is this a wonderful app that is beginning to be used in many schools, but it is also 100% free, making it easy for whole schools to adapt due to the lack of cost.

Here are some praise and examples for how other teachers use this app:
https://www.classdojo.com/en-gb/wall-of-love/?redirect=true 

Image result for class dojo avatars girlsHow this app aids with behaviour management: In this app, the teacher enters their class list into the app. Each student is represented with a customise-able monster avatar. The teacher can give individual or groups of students points and select a specific reason why from a list of observable behaviours (eg. listening, participation). Points can also be deducted from students. The app can either be displayed on an interactive whiteboard so that all students can view it, or can be operated from a computer, iPad or iPhone. This makes the app portable and provides access from where ever the teacher may take the students within the school. To make the app most effective, teachers should negotiate with their students a list of desirable behaviours that they can achieve points for. This way all students are aware of what behaviours they should demonstrate and creates a sense of accountability. Students can also be broken up into groups (either as desk groups or even spelling/maths groups, etc.) and can give group points. The points can be reset whenever the teacher chooses, for example at the end of each day or week. What the teacher chooses to do with the points is completely up to them. They can provide students with individual rewards or can even decide to give out whole class rewards. Reward systems and needed points can be tweaked to suit the year level.

Image result for class dojo rewards whole class

 

 

Application in classrooms via the use of the curriculum: I have seen this app effectively implemented in a range year levels, such as year 2/3 split class and even a year 5 class. However I will relate this to the year 4 curriculum.

Year 4 curriculum (SCASA)

Subject: Technologies

Strand: Digital Technologies

Sub-Strand: Knowledge and Understanding/Digital Systems

Content Descriptor: Digital systems and peripheral devices are used for different purposes and can store and transmit different types of data (ACTDIK007)

This content descriptor was chosen because aspects of the app directly relate to this. The app enables teachers to track, mark and keep record of student homework. Students each have their own individual accounts, which students can use to upload their homework and assessment pieces. The uploaded work is presented as a portfolio, and allows parent and peer access.

References

Class dojo. (n.d.). Retrieved from https://www.classdojo.com/en-gb/?redirect=true#LearnMore

School Curriculum and Standards Authority (SCSA). (n.d.). Retrieved from http://k10outline.scsa.wa.edu.au/home/p-10-curriculum/curriculum-browser/technologies/digital-technologies2

Lego Boost – A hands on approach to coding in the classroom!


Subject:
Digital Technologies

Strand
:
Design and Technology

Sub-strand: Design and technologies process and production skills

Bands: 3 to 7

 

 

Boost is Lego’s latest introduction of Lego robotics to 2017. Boost is a step up from Lego’s Mindstorms and WeDo 2.0 robotics kits, introducing movement to Lego. Boost gives students the opportunity to engage in the active learning process, whereby students construct their own learning. Boost is not only fun, but it’s also educational. Using the software available on the Lego Boost website, teachers can tailor learning experiences which are relevant, hands on and fun, while learning the fundamentals of coding and computational thinking.

 How?

Boost has over 60 different coding activities available. Teachers can select the activity they would like to incorporate into their learning experience from the Boost App, available for most Android and Apple devices. Coding with Lego is easy, students demonstrate their problem solving skills and ability to think critically by programming their Lego Boost creation to suit the learning task. Boost Lego has special bricks including a motor and sensors, which gauge surrounding colours and distance from objects in its path.

 

LEGO Boost isn’t available until August 2017, however children and adults are bursting to try this new technology!

Content Descriptors

Year 3 to Year 4

  • Generate, develop, and communicate design ideas and decisions using appropriate technical terms and graphical representation techniques (ACTDEP015)
  • Select and use materials, components, tools, equipment and techniques and use safe work practices to make designed solutions (ACTDEP016)
  • Plan a sequence of production steps when making designed solutions individually and collaboratively (ACTDEP018)

Year 5 to Year 6

  • Generate, develop and communicate design ideas and processes for audiences using appropriate technical terms and graphical representation techniques (ACTDEP025)
  • Select appropriate materials, components, tools, equipment and techniques and apply safe procedures to make designed solutions (ACTDEP026)
  • Develop project plans that include consideration of resources when making designed solutions individually and collaboratively (ACTDEP028)

Year 7 to Year 8

  • Critique needs or opportunities for designing and investigate, analyse and select from a range of materials, components, tools, equipment and processes to develop design ideas (ACTDEP035)
  • Select and justify choices of materials, components, tools, equipment and techniques to effectively and safely make designed solutions (ACTDEP037)
  • Use project management processes when working individually and collaboratively to coordinate production of designed solutions (ACTDEP039

General capabilities 

  • Literacy
  • Numeracy
  • Science
  • Critical Thinking and Creative Thinking
  • Personal and Social capability
  • Information and Communication Technology

 

Further Information

Lego Boost CNN Report

LEGO Boost Official Website

LEGO WeDo Official website

Bits and Bricks

Youtube – Boost LEGO in Education

Youtube – WeDo LEGO in Education

Lego Computer Coding Activities

 

 

By Emily Richardson

QR codes and Plickers

Plickers

What is Plickers?

Plickers is a tool that can be used by students and teachers to gather real-time data.  Teachers can use Plickers  for diagnostic, formative and summative assessment. Plickers can be used for assessment, as a voting tool (for example deciding what sport students want to play for morning fitness) or in any learning area.

Plickers is linked to an app on the iPad or tablet. Students have a QR code and a series of questions to answer, depending on what they think the answer is determines which way they hold their QR code up. The teacher then scans the room with an iPad or tablet picking up all the students answers.

When I used Plickers in the classroom I displayed the questions and answers on the Interactive Whiteboard, that way the students could read and answer the questions. Once they had answered the question we could compare the data, we could look at a graph to see how many students got the answer correct or incorrect and we could compare percentages. Displaying the information on the Interactive Whiteboard allowed all the students to see if there QR codes had been scanned or not (their name would turn from red to green).

Plickers can be incorporated into all learning areas in different ways. I found incorporating it into mathematics was a great way for for me to assess students understandings, from there I could determine what needed to be taught in more depth and what students understood. Plickers was a great way for all students to participate because it was hands on, interactive and the answers were private.

Useful information for teachers

  • Pictures can be added to the questions
  • Only 4 options/ answers can be added
  • Plickers allows teacher to focus on teaching rather then preparing
  • It is free to sign up and the QR codes are provided

Year

  • Year 3 and Year 4
  • Year 5 and Year 6

Below I have given you the Australian Curriculum details for Year 3 and Year 4.

Subject: Digital Technologies

Strand: Digital technologies knowledge and understandings and digital technologies process and production skills

Curriculum Links

Digital Technologies

  • Recognise different types of data and explore how the same data can be represented in different ways (ACTDIK008)
  • Collect, access and present different types of data using simple software to create information and solve problems (ACTDIP009)
  • Plan, create and communicate ideas and information independently and with others, applying agreed ethical and social protocols (ACTDIP013)

General Capabilities

  • Information and Communication Technologies (ICT) Capabilities
  • Numeracy
  • Literacy
  • Critical and Creative thinking

To get started and for more information about Plickers click the link below

https://plickers.com/

Coding for all ages

CODE

Subject: Digital Technologies

Year level: Year 3

Strand: Digital Technologies process and production skills

Substrand: Digital Implementations

Use visually represented sequenced steps (algorithms), including steps with decisions made by the user (branching) (ACTDIP011)

General Capabilities

  • Critical and Creative Thinking
  • Numeracy
  • Information Communication Technology (ICT) Capabilities

What is Code?

Code is a website that allows people of all ages to complete computer science activities. Hour of Code allows students to access tutorials and learn how computer science works. Code Studio can be set up by a teacher so students can work their way through tasks and further their understandings of computer science. These tasks are great for students because they target the students needs (students can work at their own pace through the levels) and it also includes interest of theirs so it keeps them actively engaged in the learning. The code website can be used on laptops, iPads and tablets therefore students have the ability to easily click and drag the appropriate instruction where necessary, making the website extremely interactive. The Code website manages to incorporate games and movies into coding; examples of these include Minecraft, Star Wars and Frozen. Coding is a great way for students to build and use their problem solving skills.

For more information about this website and to start coding yourself click the link below

https://code.org/ 

Popplet

Popplet


http://www.popplet.com/

 

About:

Popplet is a tool for the iPad and web to capture and organize your ideas.

Use within classroom:

In the classroom and at home, students use Popplet for learning. Used as a mind-map, Popplet helps students think and learn visually. Students can capture facts, thoughts, and images and learn to create relationships between them.

The resources strength lays in it’s ability to be used on both portable Apple devices such as iPads and online. This means students are not limited to be tied to a computer when mind mapping, great for small group work.

Price: $7.99

Digital Technologies

Year Levels: Year 3 Sylabus

Strand:Knowledge and understanding – REPRESENTATION OF DATA

Different types of data can be represented in different ways (ACTDIK008)

Cross Curricular and General Capabilities: Critical and Creative Thinking and Information  and Communication Technology (ICT)

The app is of course not limited to these aspects of the digital curriculum, or even the digital curriculum.

Scratch – Coding to learn!

Scratch – Coding to learn!

Scratch

Scratch is a click-drag-and-drop programming environment that is exceptional for introducing students to programming concepts via Windows and Mac OS X . Students can use Scratch to code their own interactive stories, games, and animations. In the process, they learn to think creatively, reason systematically, and work collaboratively, which are essential skills for society and the classroom.

Target year level:  Year 3-6 (Also recommended for high-school students)

Curriculum learning area: Digital Technologies

General Capabilities: Literacy, Numeracy, ICT, Critical and Creative Thinking

Developed by: Lifelong Kindergarten Group at the MIT Media Lab

Why use scratch in your classroom? Scratch introduces students to programming without the daunting pressure of understanding coding/programming language. Beginners are often ‘put off’ when faced with errors in coding, as many programmers are quite abstruse in their language, however scratch aims to overcome this barrier by using a drag-and-drop technique that is readily available to young ages. Scratch uses visual programming language that can be used to construct games, presentations, tutorials, animations, interactive stories and more to create a conceptual understanding or digital materials.

About this resource: Scratch has provided a educational resource for teachers that provides a digital platform for teachers to engage in and share stories, experiences, resources and meet fellow educators via the Scratch Educator MeetupsNote: These meetups are USA centralized.  Scratch also provides teachers with an educator account to help manage classroom projects and student programs.

Links to other learning areas: 

  • Art – Drawing experimentation with colour
  • Mathematics – Plot, graph, demonstrate and application of mathematical concepts
  • Science – Simulation and experimentation
  • Languages – Simple quiz input/output, including the recording of sound for feedback
  • English – Develop a narrative, plot points, characters and actions
  • All learning areas – Demonstrate a deeper, conceptual understanding of fundamental ideas

Mitch Resnick – Computer Scientist

Mitch Resnick is the director of the Life Long Kindergarten Group and LEGO Papert Professor of Learning Research at MIT Media Lab. Resnick aims to engage students with technology, encouraging them to create and experiment using coding with digital resources. You can find more information about Mitch Resknick here: https://www.media.mit.edu/people/mres/overview/

Scratch program snapshots

Scratch interface home page

Scratch background editor

Scratch character script

Scratch game/ challenge programming code

Programming in Schools using Scratch: A CS4HS: Iterate Workshop by Bruce Fuda

Download this resource to view a complete written document that maps out the Scratch program layout and how you can download/use it in your classroom

 

 

LEGO Autobots, roll out!

Subject: Digital Technology

Year level: 3-6

Strand: Knowledge & Understanding and Processes & Production Skills

Sub-strand: Digital Systems, Investigating and Defining, Evaluating

Possible Curriculum Links:

Digital systems have components with basic functions and interactions that may be connected together to form networks which transmit different types of data (ACTDIK014)

Define a problem, and a set of sequenced steps, with users making decisions to create a solution for a given task

Develop collaborative criteria to evaluate and justify design processes and solutions

 

Link to the Resource:

https://www.lego.com/en-us/mindstorms

Cross curriculum priorities and general capabilities:

Critical and creative thinking

Personal and social capability

Information and Communication Technology (ICT)

Numeracy

Cross-curriculum links:

Mathematics

What is it:

Lego Mindstorms EV3 is a system that allows students to build, program and command which are easy and fun to used. The package comes with bricks, motors and sensors to create one of 17 types of robots that can shoot, drive, slam, crash and spin with control from a range of devices including smart phones and tablets. Students can also further program the robots with on computer coding program for more features. The robot can be deconstructed and formed into any of the other 16 models for more missions and actions.

https://www.lego.com/en-us/mindstorms/about-ev3

 

How to use it in the Classroom:

one example of how Lego Midstorms EV3 can be used in the classrooms is the students programming a robots to respond to the sense of touch through lights, sounds, colour and movement. the robot can be displayed in a public area, for example the front office or staff area, with a sign next to it “Do Not Touch”. The robot recorded data every time it was touched within a space of an hour. the students can then graph and analyse this raw data to investigate trends as well as self-control of adults.