F-10 Curriculum (V8)
F-10 Curriculum (V9)
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This is the fifth in a series of lessons to transition from visual coding to text-based coding with a general purpose programming language. This lesson may take two to three 45-minute periods. It introduces how to create and use arrays (also called lists).
This is the fourth in a series of lessons to transition from visual coding to text-based coding with a General Purpose Programming language. This lesson may take two to three 45-minute periods. It introduces the combining of logical operators and and or for more complex decisions.
This is the first in a series of lessons to transition from visual coding to text-based coding with a general-purpose programming language. This lesson may take two to three 45-minute periods. It introduces how to create variables, get user input and perform maths operations.
This is the second in a series of lessons to transition from visual coding to text-based coding with a general-purpose programming language. This lesson may take two to three 45-minute periods. It introduces how to make decisions (branching) and identify data types.
This is the ninth in a series of lessons to transition from visual coding to text-based coding with a General Purpose Programming language. This lesson may take two to three 45-minute periods. It explores creating powerful programs for managing and analysing data, by combining the previous skills of using loops and working ...
In this lesson we show how to transition from a visual based programming language to using a text-based programming language using the example of a heads or tails coin toss application.
Create a model using snap blocks 1 block high and create a code so someone else can build your model.
Students use a visual programming language to create a game or quiz to help members of a community prepare for a severe weather event.
This series of lessons is to help students to transition from visual coding to text-based coding with a general-purpose programming language. This section provides the basics in order to use the programming environments: Scratch, Python and JavaScript.
Create a computer program to learn a traditional Aboriginal or Torres Strait Islander language.
Create a flowchart to represent a sequence of (branching) steps and decisions needed to solve a mathematical problem.
The soil moisture sensor project integrates science understandings and computational thinking to solve a problem about sustainable watering practices. This lesson was devised by Trudy Ward, Clarendon Vale Primary School, Tasmania.
In this lesson students will be using components of the LilyPad development kit to create a circuit of LED’s that are controlled using a basic Arduino program, written in the Arduino IDE. Starting with a simple sequence of turning a LED on and off, the students can be challenged to choose a piece of music with a steady ...
Students are introduced to Ozobot and how drawing lines and colour codes can control it. This lesson allows students to experiment with different lines and codes to create a path for Ozobot to follow. This lesson idea was created by Steven Payne.
This learning sequence explores text analysis through Natural Language Processing, a significant application of Artificial Intelligence. Teachers and students are led through a series of video tutorials to develop a Python program that can break down and analyse the content of a complete text and use smart sentiment analysis ...
This lesson sequence provides a bridge between visual coding (eg. Scratch) and General Purpose Programming languages (eg. Python or JavaScript). This resource is most suitable if you have never done General Purpose Programming and/or you benefit from slow-paced, step-by-step video tutorials.
This sequence of lessons explores how to incorporate user input, decision-making and loops in programming using the context of a shopping experience, particularly the checkout. It combines data in the form of a barcode and programming choices.
This lesson sequence is a cross-age project that can be used for students in year 5/6 in collaboration with students from years 1-2. In this project, students collaborate on a code for an unplugged robot. They design, test and modify the robot and create instruction manuals.
This lesson sequence offers an approaches to teaching object-oriented principles using visual programming. It attempts to address the problem that many of programming languages are too complex and their environments confusing for many students.
By years 5 and 6 many students may have had some experience with a visual programming language such as Scratch or Blockly that is the basis of the Hour of Code. Sphero will take the screen based control of an image to the next level by introducing a robotic device controlled by a visual programming language. This lesson ...