Welcome to my TES shop! I am a subject leader for ICT & Computer Science, creating and sharing resources to support teachers in delivering ICT, Computer Science, Computational Thinking and the Digital Competence Framework. For more resources, visit robbotresources.com
email: carl@robbotresources.com
Welcome to my TES shop! I am a subject leader for ICT & Computer Science, creating and sharing resources to support teachers in delivering ICT, Computer Science, Computational Thinking and the Digital Competence Framework. For more resources, visit robbotresources.com
email: carl@robbotresources.com
Practice makes perfect with this activity pack which includes over 1000 questions split between four different challenge levels, allowing students of all abilities to learn how to convert hexadecimal into binary numbers!
Level 1: Eight activity sheets containing four sets of eight numbers each set within a progressive range.
Level 2: Eight activity sheets containing two sets of sixteen numbers both sets within a progressive range.
Level 3: Eight activity sheets containing thirty two numbers each page within a progressive range.
Level 4: Eight activity sheets containing thirty two random numbers within the range of 0 to 255.
Each pack includes 8 pages of 32 questions, converting the numbers 0 to 255 (a byte). Each challenge pack includes clear explanations on how to make conversions and calculation tables to support the given conversion techniques and make students feel confident in doing it themselves.
Each challenge pack is provided as printable pdf so that students can complete them on paper. All answers are included on both pdf and ppt to allow for both teacher or self assessment.
Ideal to use as starter activities, plenaries or homework!
Teach students how to create an interactive spreadsheet using my poster resources!
The two posters (which can be printed back to back) cover the creation of a table, use of drop down lists and combining them with the use of a lookup formula in order to create a user friendly spreadsheet.
Within this unit of work, students will learn how to apply the concepts of computational thinking to a range of different problem solving puzzles. The resource is split into four sections;
1. Computational thinking puzzles - a range of different types of puzzles which encourage students to apply the concepts of computational thinking to solve them. Puzzles include mazes, word ladders and even a game of draughts (or checkers)!
2. Logic Gates - students will need to solve the logic gate puzzles to identify if the output is on (1) or off (0) dependent on the gate sequences. This also helps develop Boolean decision making through the use of AND, OR & NOT gates which produce a TRUE (1) or FALSE (0) output.
3. Flowchart puzzles - students need to work out the correct answers to the questions asked dependent on the input information and the flowchart conditions set. Flowcharts include the use of algebra variables which can help support mathematics students.
4. Pseudo code puzzles - students need to read through the pseudo code algorithms and demonstrate their understanding by answering the questions asked. Pseudo code sequences include the use of algebra variables which can help support mathematics students.
Each puzzle is given a score. Once complete students check their answers and work out their overall scores and place them in the grid provided. They then compare this with the overall levels to find their overall level: Rookie, Pro or Beast! This can then be used within assessment to see if students are performing at, below or above expected levels.
Pack includes a student PowerPoint resource to complete and answers for each puzzle.
***Please Leave a Review!***
Part 2 of a series of 7 introductory lessons on how to use Python through the use of the IDLE GUI.
Within Part 2 you will build on the skills learned within part 1 and combine them with the use of variables. You will learn how to assign different types of data to them as well as how to output and edit them through using a series of common python functions.
Learn new programming skills through clearly presented explanations before applying your newly developed skills within a series of easy to follow tasks, explained through written explanations as well as flowcharts and/or pseudo code.
Each unit in this series is fully differentiated using Rob-Bot Resources’ unique Rookie, Pro & Beast leveling system; apply your new programming skills by completing the introductory Rookie tasks. Once you've got a grip of the basics, push yourself by completing the Pro exercises before finally testing your skills by completing the Beast scenarios.
Once you have completed the practice tasks it’s time to test your skills within the differentiated programming challenges!
All task and challenge coding solutions are also included.
Suitable for both KS3 and KS4 classes.
***Please leave a review :) ***
Part 5 of a series of 7 introductory lessons on how to use Python through the use of the IDLE GUI.
Within Part 5 you will learn how to create, use and edit arrays (within python they are known as lists) through the use of a range of python functions.
Learn new programming skills through clearly presented explanations before applying your newly developed skills within a series of easy to follow tasks, explained through written explanations as well as flowcharts and/or pseudo code.
Each unit in this series is fully differentiated using Rob-Bot Resources’ unique Rookie, Pro and Beast leveling system; apply your new programming skills by completing the introductory Rookie tasks. Once you've got a grip of the basics, push yourself by completing the Pro exercises before finally testing your skills by completing the Beast scenarios.
Once you have completed the practice tasks it’s time to test your skills within the differentiated programming challenges!
All task and challenge coding solutions are also included.
Suitable for both KS3 and KS4 classes.
***Please leave a review :) ***
Part 4 of a series of 7 introductory lessons on how to use Python through the use of the IDLE GUI.
Within Part 4 you will learn how to make your code perform different actions through the use of decisions. You will learn how to check for a condition through the use of logic and Boolean operators and apply them within simple if statements before learning how to check for multiple outcomes using the ELSE and ELIF functions.
Learn new programming skills through clearly presented explanations before applying your newly developed skills within a series of easy to follow tasks, explained through written explanations as well as flowcharts and/or pseudo code.
Each unit in this series is fully differentiated using Rob-Bot Resources’ unique Rookie, Pro and Beast leveling system; apply your new programming skills by completing the introductory Rookie tasks. Once you've got a grip of the basics, push yourself by completing the Pro exercises before finally testing your skills by completing the Beast scenarios.
Once you have completed the practice tasks it’s time to test your skills within the differentiated programming challenges!
All task and challenge coding solutions are also included.
Suitable for both KS3 and KS4 classes.
***Please leave a review :) ***
Part 3 of a series of 7 introductory lessons on how to use Python through the use of the IDLE GUI.
Within Part 3 you will learn how to add comments to your code to help explain what you have done... both as a reminder to yourself or to someone else who you want to share your code with!
Learn new programming skills through clearly presented explanations before applying your newly developed skills within a series of easy to follow tasks, explained through written explanations as well as flowcharts and/or pseudo code.
Each unit in this series is fully differentiated using Rob-Bot Resources’ unique Rookie, Pro and Beast leveling system; apply your new programming skills by completing the introductory Rookie tasks. Once you've got a grip of the basics, push yourself by completing the Pro exercises before finally testing your skills by completing the Beast scenarios.
Once you have completed the practice tasks it’s time to test your skills within the differentiated programming challenges!
All task and challenge coding solutions are also included.
Suitable for both KS3 and KS4 classes.
***Please leave a review :) ***
**Create a Python Text Adventure || Part 9: Game Development
Teach your students the key concepts of software development and fundamental programming skills within the context of a text adventure game.**
Taught through the use of Python, by the end of the full course (available to purchase as a bundle: https://www.tes.com/teaching-resource/resource-12961583), students will have a fully functioning Python Text Adventure!
Within the full course, students will learn the following skills:
Part 1: Introduction to text adventure gaming
Part 2: How to design a text adventure game
Part 3: Creating a prototype text adventure
Part 4: Programming techniques - Inputs, Outputs & Storage
Part 5: Programming techniques - Subroutines
Part 6: Programming techniques - Selection
Part 7: Programming techniques - Arrays
Part 8: Programming techniques - Iteration
Part 9: Programming techniques - Game development (Random number generation, use of time module and ASCII art)
Part 10: Programming techniques - External file handling
Within Part 9, students will learn how to develop their games further by using techniques such as random number generation to create random events or to collect random objects, the time module to create a typing text effect and methods for creating ASCII art.
**Create a Python Text Adventure || Part 10: External File Handling
Teach your students the key concepts of software development and fundamental programming skills within the context of a text adventure game.**
Taught through the use of Python, by the end of the full course (available to purchase as a bundle: https://www.tes.com/teaching-resource/resource-12961583), students will have a fully functioning Python Text Adventure!
Within the full course, students will learn the following skills:
Part 1: Introduction to text adventure gaming
Part 2: How to design a text adventure game
Part 3: Creating a prototype text adventure
Part 4: Programming techniques - Inputs, Outputs & Storage
Part 5: Programming techniques - Subroutines
Part 6: Programming techniques - Selection
Part 7: Programming techniques - Arrays
Part 8: Programming techniques - Iteration
Part 9: Programming techniques - Game development (Random number generation, use of time module and ASCII art)
Part 10: Programming techniques - External file handling
Within Part 10, students will learn how to read, store and write information to and from external text files. This will then be applied to their text adventure games, allowing them to save a players itinerary items and return them to their itinerary when they return to the game.
**Create a Python Text Adventure || Part 8: Iteration
Teach your students the key concepts of software development and fundamental programming skills within the context of a text adventure game.**
Taught through the use of Python, by the end of the full course (available to purchase as a bundle: https://www.tes.com/teaching-resource/resource-12961583), students will have a fully functioning Python Text Adventure!
Within the full course, students will learn the following skills:
Part 1: Introduction to text adventure gaming
Part 2: How to design a text adventure game
Part 3: Creating a prototype text adventure
Part 4: Programming techniques - Inputs, Outputs & Storage
Part 5: Programming techniques - Subroutines
Part 6: Programming techniques - Selection
Part 7: Programming techniques - Arrays
Part 8: Programming techniques - Iteration
Part 9: Programming techniques - Game development (Random number generation, use of time module and ASCII art)
Part 10: Programming techniques - External file handling
Within Part 8, students will learn how to use both count controlled and condition controlled iteration and apply both techniques within their text adventure games.
Create a Python Text Adventure || Part 2: Design your text adventure
Teach your students the key concepts of software development and fundamental programming skills within the context of a text adventure game.
Taught through the use of Python, by the end of the full course (available to purchase as a bundle: https://www.tes.com/teaching-resource/resource-12961583), students will have a fully functioning Python Text Adventure!
Within the full course, students will learn the following skills:
Part 1: Introduction to text adventure gaming
Part 2: How to design a text adventure game
Part 3: Creating a prototype text adventure
Part 4: Programming techniques - Inputs, Outputs & Storage
Part 5: Programming techniques - Subroutines
Part 6: Programming techniques - Selection
Part 7: Programming techniques - Arrays
Part 8: Programming techniques - Iteration
Part 9: Programming techniques - Game development (Random number generation, use of time module and ASCII art)
Part 10: Programming techniques - External file handling
Within Part 2, students will be introduced to a typical game development lifecycle and start by planning and designing their text adventure game. Students will need to consider target audience, challenges and context of the adventure. Once completed, students will create a layout of their game world and build up the necessary details within it.
**Create a Python Text Adventure || Part 4: Inputs, Outputs and Storage
Teach your students the key concepts of software development and fundamental programming skills within the context of a text adventure game.**
Taught through the use of Python, by the end of the full course (available to purchase as a bundle: https://www.tes.com/teaching-resource/resource-12961583), students will have a fully functioning Python Text Adventure!
Within the full course, students will learn the following skills:
Part 1: Introduction to text adventure gaming
Part 2: How to design a text adventure game
Part 3: Creating a prototype text adventure
Part 4: Programming techniques - Inputs, Outputs & Storage
Part 5: Programming techniques - Subroutines
Part 6: Programming techniques - Selection
Part 7: Programming techniques - Arrays
Part 8: Programming techniques - Iteration
Part 9: Programming techniques - Game development (Random number generation, use of time module and ASCII art)
Part 10: Programming techniques - External file handling
Within Part 4, students will start to create their text adventure games. Through Python, students will be introduced to basic programming concepts such as outputting written information, allowing a user to input information and storing information in a variable.
**Create a Python Text Adventure || Part 6: Selection
Teach your students the key concepts of software development and fundamental programming skills within the context of a text adventure game.**
Taught through the use of Python, by the end of the full course (available to purchase as a bundle: https://www.tes.com/teaching-resource/resource-12961583), students will have a fully functioning Python Text Adventure!
Within the full course, students will learn the following skills:
Part 1: Introduction to text adventure gaming
Part 2: How to design a text adventure game
Part 3: Creating a prototype text adventure
Part 4: Programming techniques - Inputs, Outputs & Storage
Part 5: Programming techniques - Subroutines
Part 6: Programming techniques - Selection
Part 7: Programming techniques - Arrays
Part 8: Programming techniques - Iteration
Part 9: Programming techniques - Game development (Random number generation, use of time module and ASCII art)
Part 10: Programming techniques - External file handling
Within Part 6, students will learn how to use selection techniques to help the user navigate their text adventure world.
**Create a Python Text Adventure || Part 3: Create a Prototype
Teach your students the key concepts of software development and fundamental programming skills within the context of a text adventure game.**
Taught through the use of Python, by the end of the full course (available to purchase as a bundle: https://www.tes.com/teaching-resource/resource-12961583), students will have a fully functioning Python Text Adventure!
Within the full course, students will learn the following skills:
Part 1: Introduction to text adventure gaming
Part 2: How to design a text adventure game
Part 3: Creating a prototype text adventure
Part 4: Programming techniques - Inputs, Outputs & Storage
Part 5: Programming techniques - Subroutines
Part 6: Programming techniques - Selection
Part 7: Programming techniques - Arrays
Part 8: Programming techniques - Iteration
Part 9: Programming techniques - Game development (Random number generation, use of time module and ASCII art)
Part 10: Programming techniques - External file handling
Within Part 3, students will use their design work from Part 2 to create a prototype of their text adventure game through the use of PowerPoint. Users should be able to navigate through the student’s text adventure world and see how each location is connected.
**Create a Python Text Adventure || Part 5: Subroutines
Teach your students the key concepts of software development and fundamental programming skills within the context of a text adventure game.**
Taught through the use of Python, by the end of the full course (available to purchase as a bundle: https://www.tes.com/teaching-resource/resource-12961583), students will have a fully functioning Python Text Adventure!
Within the full course, students will learn the following skills:
Part 1: Introduction to text adventure gaming
Part 2: How to design a text adventure game
Part 3: Creating a prototype text adventure
Part 4: Programming techniques - Inputs, Outputs & Storage
Part 5: Programming techniques - Subroutines
Part 6: Programming techniques - Selection
Part 7: Programming techniques - Arrays
Part 8: Programming techniques - Iteration
Part 9: Programming techniques - Game development (Random number generation, use of time module and ASCII art)
Part 10: Programming techniques - External file handling
Within Part 5, students will learn how to create subroutines and use them to host each location within their text adventure world.
A series of 6 classroom wall posters to promote the concept of computational thinking.
Alongside the 4 parts of computational thinking (Decomposition, Pattern Recognition, Abstraction and Algorithm design), I have also included debugging which includes common errors (example syntax and logical).
PNG and PDF versions included.
Computational Thinking is a skill set that can be used across the curriculum, not just within computer science! The logical approach to solving a problem means that it’s application can be used to develop and improve students ability to deal with difficult problems in a more rational way. The aim of my posters is to make you realise that many of the brilliant tasks that teachers facilitate week in, week out actually include computational thinking. It’s just a matter of making it more explicit!
Please leave a review!