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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: robbotresources@outlook.com

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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: robbotresources@outlook.com
GCSE 9-1 Computer Science: Algorithm Design - Arrays
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GCSE 9-1 Computer Science: Algorithm Design - Arrays

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**What is an array? How are they used within algorithms?! ** Within this short unit of work (2-3 lessons) students will learn: what an array is and how they are used. to create, edit, input and output information to and from an array. to use both one and two dimensional arrays As well as activities and tasks within the lessons, final differentiated (Rookie, Pro and Beast level) challenges have been included to consolidate learning. All required resources are included within the PowerPoint. There are some items that require printing within the resource section at the end. It is recommended that this resources is used after completing GCSE 9-1 Computer Science: KS4 Algorithm Design
KS3 Computer Science:  Algorithm Design - Year 7
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KS3 Computer Science: Algorithm Design - Year 7

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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!
GCSE 9-1 Computer Science Revision Pack
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GCSE 9-1 Computer Science Revision Pack

10 Resources
This bundle has been created to support students in their revision for their GCSE Computer Science Exams. It contains the following: GCSE 9-1 Computer Science Flash Activity Sheets GCSE Computer Science Vocabulary - Interactive Booklet GCSE 9-1 Computer Science Knowledge Organiser: Computer Systems GCSE 9-1 Computer Science Poster: How to read and write Edexcel pseudo code GCSE 9-1 Computer Science Poster: How to read and write Edexcel pseudo code GCSE 9-1 Computer Science Poster: Impact of Digital Technology on Society GCSE Computer Science: Revision Clock
GCSE 9-1 Computer Science: Sorting & Searching Algorithms
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GCSE 9-1 Computer Science: Sorting & Searching Algorithms

2 Resources
This bundle includes both my comprehensive Sorting and Searching Algorithms units of work. Within Sorting Algorithms, your students will learn how to: Understand different methods of sorting data within an array: Bubble sort Merge sort Explain how both methods work. Identify advantages and disadvantages of using both techniques. Within Searching Algorithms, your students will learn to: To understand different methods of searching data within an array: Linear search Binary search Explain how both methods work. To identify advantages and disadvantages of using both techniques. Students will learn about how both sorting and searching techniques work through clearly presented explanations, pseudocode, diagrams and animations. Students will develop and consolidate their understanding through a range of tasks and activities including the creation of algorithms using Python. Recommended prior learning: KS4 Algorithm Design (Sequencing, Selection & Iteration): https://www.tes.com/teaching-resource/gcse-9-1-computer-science-ks4-algorithm-design-12044669 Data Types: https://www.tes.com/teaching-resource/gcse-9-1-computer-science-algorithm-design-data-types-12047021 Arrays: https://www.tes.com/teaching-resource/gcse-9-1-computer-science-algorithm-design-arrays-12044694 Subroutines: https://www.tes.com/teaching-resource/gcse-9-1-computer-science-algorithm-design-subroutines-12047070
GCSE 9-1 Computer Science: Searching Algorithms
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GCSE 9-1 Computer Science: Searching Algorithms

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Within this unit of work, your students will learn to: To understand different methods of searching data within an array: Linear search Binary search Explain how both methods work. To identify advantages and disadvantages of using both techniques. Students will learn about how both searching methods work through clearly presented explanations, pseudocode, diagrams and animations. Students will develop and consolidate their understanding through a range of tasks and activities including the creation of searching algorithms using Python. Although this unit of work has been created following the AQA GCSE 9-1 Computer Science specification, it is applicable to anyone who wants to learn about searching algorithms. Recommended prior learning: KS4 Algorithm Design (Sequencing, Selection & Iteration): https://www.tes.com/teaching-resource/gcse-9-1-computer-science-ks4-algorithm-design-12044669 Data Types: https://www.tes.com/teaching-resource/gcse-9-1-computer-science-algorithm-design-data-types-12047021 Arrays: https://www.tes.com/teaching-resource/gcse-9-1-computer-science-algorithm-design-arrays-12044694 Subroutines: https://www.tes.com/teaching-resource/gcse-9-1-computer-science-algorithm-design-subroutines-12047070
Computational Thinking for KS3 & KS4
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Computational Thinking for KS3 & KS4

4 Resources
If you teach computer science, you don’t want to miss out on this! This bundle includes both my two most popular Computational Thinking resources: Computational Thinking for KS3 and Computational Thinking for KS4. Includes a combination of informative explanations for each concept of Computational Thinking and activities to give students the opportunity to practice and refine their new skills. Both resources include age appropriate ‘real world’ Computational Thinking mini projects to help refine their logical problem solving skills even further. Also includes my two most popular Computational Thinking poster sets!
KS3 Computer Science:  Data Representation - Year 7
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KS3 Computer Science: Data Representation - Year 7

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"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.
KS3 Computer Science - Data Representation
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KS3 Computer Science - Data Representation

4 Resources
This bundle includes both my Year 7 & Year 8 data representation units of work as well as knowledge organisers and revision sheets to help support students within their final assessments. Purchase both units together and save 25% off individual cost!
Binary Ninja! Binary to Decimal Activity Pack
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Binary Ninja! Binary to Decimal Activity Pack

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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 binary numbers into decimal! 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!
KS3 Computer Science:  Data Representation - Year 8
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KS3 Computer Science: Data Representation - Year 8

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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.
Binary Ninja! Hexadecimal to Decimal Activity Pack
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Binary Ninja! Hexadecimal to Decimal Activity Pack

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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 decimal 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!
Binary Ninja! Decimal to Hexadecimal Activity Pack
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Binary Ninja! Decimal to Hexadecimal Activity Pack

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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 decimal numbers into hexadecimal! 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!
KS3 Computer Science SUPER BUNDLE!
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KS3 Computer Science SUPER BUNDLE!

17 Resources
This huge bundle includes all my key stage 3 computer science units of work as well as knowledge organisers and revision sheets to help prepare your students for their final assessments (all included). Full solutions are also included. This bundle contains: Computer Systems - Year 7 Computer Systems - Year 8 KS3 Networks Computational Thinking for KS3 Algorithm Design - Year 7 Algorithm Design - Year 8 Data Representation - Year 7 Data Representation - Year 8 Also includes knowledge organisers and revision sheets and starter activities! Purchase all these resources within this bundle and you will save over 25% individual resource price!
KS3 Computer Science:  Computational Thinking & Algorithm Design
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KS3 Computer Science: Computational Thinking & Algorithm Design

5 Resources
This bundle includes one of my most popular resources: Computational Thinking for KS3, my Year 7 & 8 Algorithm Design units of work as well as a knowledge organiser and revision sheet to help students prepare for the final assessments. Purchase all these resources within this bundle and save over 20% off individual resource cost!
KS3 Computer Science:  Algorithm Design - Year 8
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KS3 Computer Science: Algorithm Design - Year 8

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KS3 Computer Science: Algorithm Design - Year 8 recaps and builds upon the basic understanding of algorithm design learned within Algorithm design for Year 7 and allows your students to 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. To recap the following algorithm design techniques Sequence and Selection. To understand the following data types: Character String Real Integer Boolean To learn how to use looping to write repeatable sequences of code. To apply understanding into subroutine challenges. To understand different types of errors that can occur while writing algorithms (Syntax, Logic and Runtime) and methods used to identify them. 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 Algorithm Design - Year 7 and 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!
Computational Thinking: Code Breaking
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Computational Thinking: Code Breaking

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Develop your students problem solving skills with this resource! Learn about and break codes used across the ages including: Caeser Cypher Polybius Square Pigpen Cypher Braille Morse Code Also learn about how cryptanalyst Alan Turing shortened the length of World War II and saved millions of lives in the process! Includes both student PowerPoint work book and Teacher solutions. Final consolidation exercise includes differentiated challenges!
Binary Ninja! Decimal to Binary Activity Pack
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Binary Ninja! Decimal to Binary Activity Pack

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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 decimal numbers into binary! 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!
Binary Ninja! Hexadecimal to Binary Activity Pack
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Binary Ninja! Hexadecimal to Binary Activity Pack

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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!
Binary Ninja! Binary to Hexadecimal Activity Pack
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Binary Ninja! Binary to Hexadecimal Activity Pack

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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 binary numbers into hexadecimal! 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!
The Impact and Risks of Digital Technology on Society
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The Impact and Risks of Digital Technology on Society

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This resource includes two different packs: Questions Pack The questions pack includes a range of practice 9 and 12 mark exam questions which cover topics found within all major GCSE computer science specifications including: Cyber Security Mobile Technology Wireless Networking Cloud Storage The Theft of Computer Code Wearable Technologies & Implants Privacy and Data Protection An additional 10 questions are also included and cover the following topics: Artificial Intelligence Autonomous Vehicles Businesses and Services Environmental Issues The Digital Divide What3Words Facial Recognition Technology Social Networking Social Media Addiction Fake News Each question includes the following: Planning activities Answer structure guidance Mark scheme This pack also includes information on how to tackle long answer questions. Topics Pack This includes information which covers a wide range of topics associated with the impact and risks of digital technology on society. Each question within the questions pack is covered with a range of information which includes benefits, and environmental, ethical and legal & privacy concerns.