This unit of work introduces students within KS3 to the concepts of computational thinking by helping Rob-bot the robot make a jam sandwich. Through the activity, students will learn about decomposition, pattern recognition, abstraction and algorithm design (through both basic flowcharts and pseudo code). They will also lean about the importance of debugging their algorithms. The duration of this work usually takes between 2-3 hours to complete, so is perfect as an introductory unit to computational thinking and programming. ***Please leave a review!***

This comprehensive unit of work introduces the concepts of computational thinking to students at KS4. It covers all elements of computational thinking such as Decomposition, Pattern Recognition, Abstraction and Algorithmic Design. I have also included debugging within the work. Each section is explained and followed by tasks to help develop student understanding. I have also included a ‘supermarket sweep’ computational thinking problem and a final project exercise which has three levels of difficulty. 2018 Update: Improved Grammar and clarity of task requirement. ***Please leave a review!***

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 1 of a series of 7 introductory lessons on how to use Python through the use of the IDLE GUI. Within Part 1 you will learn how to output information using the print function, how to express and use the two common data types used within programming; string and integers and how to conduct mathematical calculation on both types of data. 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 :) ***

Introduction to computer systems for Year 7 students. The aim of this unit of work is to introduce year 7 students to the basic concepts of computer systems. What are we learning? To show understanding of the difference between input and output devices with suitable examples. To understand the difference between internal and external devices with suitable examples. To describe the different types of storage: Magnetic, Optical and Solid State. To understand the role and purpose of the CPU and the relationship with RAM (Fetch-Execute Cycle). To show an understanding of an embedded system including suitable examples. This unit of work includes a range of information and activities to develop student knowledge and understanding of computer systems. A final assessment is also included. Teacher answer powerpoint also included. **Please leave a review!

Part 6 of a series of 7 introductory lessons on how to use Python through the use of the IDLE GUI. Within Part 6 you will learn how to edit string in a wide range of ways using python functions, for example, count elements, replace letters, use variable indexing, titling text and changing the casing . This resource builds on the skills learned within previous resources within the Rob-Bot Resources Introduction to Python Programming series. 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 :) ***

Introduction to computer systems for year 8 students. The aim of this unit of work is to build upon the knowledge and understanding of computer systems developed within KS3 Computer Science: Computer Systems Year 7. What are we learning? Explain factors affecting CPU performance. Clock Speed Cache Size Number of Cores RAM, ROM and Virtual Memory – understanding of differences between volatile and non-volatile memory. Explain factors affecting secondary storage. Cost Capacity Speed Portability Understand the Fetch – Execute Cycle. This unit of work includes a range of information and activities to develop student knowledge and understanding of computer systems. A final assessment is also included. Teacher answer powerpoint also included. **Please leave a review!

This versatile resources is aimed to develop your GCSE Computer Science retrieval skills and practice a range of fundamental skills which consistently appear within GCSE Computer Science exams. This resource is an ideal revision activity and includes a pack of 10 activity sheets within both PowerPoint and PDF format. I have included three different versions: Student pack - activity sheets only Teacher pack - answers (with explanations) only Student self assessment pack - both activity and answers Skills covered include: ASCII conversion Understanding binary and hexadecimal values Binary, denary and hexadecimal conversion Huffman coding Binary addition Memory size conversions These activities can be used as classroom starters, homework or as main classroom activities. It is recommended that these activities are used to practice and assess students ability to perform these skills, not as an introduction. Please leave a review!!!

Dive into the captivating world of data representation with my educational poster set. Designed with clarity and insight, each poster delves into different facets of data representation, providing a visually engaging learning experience. Explore the rhythm of sound waves, understand the intricacies of text and character encoding, and witness the magic of bitmap and raster graphics. Understand the science of calculating image resolution with easy to follow visuals and explanations. Ideal for classrooms and study spaces, this poster set serves as an invaluable educational tool for students and educators alike!

Computer Science || Logic Gates & Boolean Expressions Poster Set Discover the essence of logical brilliance with my Logic Gates and Boolean Expression simplification poster set! Unveil the secrets of digital circuits as these posters illustrate the functions of fundamental logic gates. From AND and OR to XOR and NOT, navigate through their operations seamlessly. Elevate your skills further as the set demystifies Boolean expression simplification, empowering you to optimise logical processes effortlessly. Perfect for students of Computer Science, this poster set is your gateway to mastering the language of binary brilliance!

Computer Science || Data Conversion Poster Set Unlock the world of data conversion with my exclusive four poster set! Dive into the realm of data transformation as my visually stunning posters guide you through the process in three simple steps! Data conversion techniques include: Binary to decimal Decimal to binary Hexadecimal to binary Binary to hexadecimal A must have for all GCSE Computer Science teaching rooms!

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 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 7 of a series of 7 introductory lessons on how to use Python through the use of the IDLE GUI. Within Part 7 you will learn how to improve the efficiency of your coding by writing loop functions. You will learn how to write two different types of loop sequences; While loops and For loops. This work builds upon and applies concepts learned within the previous work within the Rob-Bot Resources Introduction to Python Programming series. 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 :) ***

Computer Science: Introduction to Networks for KS3 students The aim of this unit of work is to introduce KS3 students to computer networks. Within this unit of work, students will learn the following: What will you learn? To understand what is meant by a Local Area Network (LAN). Hardware required Methods of connection (WiFi & Ethernet cable) To understand what is meant by a Wide Area Network (WAN). Methods to connect (GPRS, mobile, telephone cables & satellite). To understand how peripheral devices can connect to a computer system using a Wireless Personal Area Network (WPAN). Methods to connect (Bluetooth). Understand the following methods of keeping you computer secure on a computer network: - Firewall - Anti-malware - Passwords - Encryption This unit of work includes a range of information and activities to develop student knowledge and understanding of computer systems. Please note two practical activities require the use of rope to create a human networks! A final assessment is also included. Teacher answer PowerPoint also included. **Please leave a review!

"There are 10 kinds of people in the world; those who understand binary numbers… and those who don’t!" Alongside understanding the joke above(!), KS3 Computer Science: Data Representation - Year 7 will teach your students the following: Explain why a computer uses binary. To be able to identify the number of bits in different units of data e.g. Bit, Nibble, Byte, Kilobyte, Megabyte, Gigabyte, etc. To explain the difference between ‘base 2’ and ‘base 10’ numbering systems. To be able to convert binary into denary and vice versa. Explain how characters are stored in the ASCII character set. Your students will learn this information through a variety of clearly presented instructions as well as a range of tasks and activities designed to consolidate learning. This unit of work also includes a final assessment. Full teacher solutions also included! Before completing this unit of work, it is recommended that your students complete Computer systems for year 7 so they have an understanding of the different hardware components of a computer.

Within KS3 Computer Science: Data Representation - Year 8, your students will recall and build upon understanding developed within Data Representation for Year 7 and learn the following: To recall binary and denary conversion techniques from year 7. To be able to add two binary numbers using binary addition and understand the term overflow error. Understand the use and purpose of ASCII and Unicode character sets. Understand how images are stored on a computer. Understand the relationship between resolution, colour depth and file size. Recap the terms ‘Base 2’ and ‘Base 10’ number systems. To apply understanding to the use of Hexadecimal (base 16). Your students will learn these concepts through a range of clearly presented explanations and a range of tasks and challenges to consolidate learning. This unit of work also includes a final assessment. Full teacher solutions also included! Before completing this unit of work, it is recommended that your students complete Data Representation for Year 7 and Computer Systems for Year 8 so they have an understanding of the different hardware components of a computer.

Introduce your students to key algorithm design techniques with this resource! Within this unit of work your students will: Learn how to write algorithms using both symbols (flowchart) and written notation (pseudocode). Learn how to write algorithms using structured techniques including: * Sequencing * Selection * Iteration (looping) Gain understanding of the need for accuracy when writing algorithms. Practice debugging your code. This resource includes explanations of each algorithm design technique as well as clear structured examples of how to write them using both flowchart and pseudocode. After each technique has been explained, students have the opportunity to apply their understanding within an activity which includes higher ability expectations. A final Rookie, Pro and Beast algorithm design challenge has also been included as well as suggested solutions for each activity.

This short unit of work introduces year 7 students to the basic concepts of algorithm design. Students will learn the following: Understand that an algorithm is a set of instructions used to solve a problem. Use both flowchart and pseudocode to design an algorithm. Learn the following algorithm design techniques; Sequence Selection Understand Boolean statements such as <, > and = and know when to apply them within an algorithm. Understand how to use variables to store information for later use within an algorithm. This resource includes a range of clearly presented explanations as well as a range of structured tasks to help your students practice their skills. It is recommended that students first complete the Computational Thinking for KS3 unit of work in order to develop a basic understanding of both computational thinking and algorithms. This unit of work also includes a final assessment. Full teacher solutions also included!