This Greenfoot video bundle is perfect for use during class or home. The videos explain in detail, using a picture book format, how to set up Greenfoot and understand how to add elements and features to make a simple game. All code has been tested and will run perfectly. The videos include the following: How to download and Greenfoot and understanding the environment An introduction to the editor How to add and manipulate actors How to simply add sound How to add a counter and get it to work

This editable resource, comes with a colourful presentation and worksheets for class, including homework and lesson plan. This is an introduction to algorithms in an easy to understand format for Year 9, but can be used for Year 8 also.

This quick, fast paced, editable resource, comes with a colourful presentation describing binary and denary and how to convert them. There is a team competition, with live editable areas for entering scores and a timer included in the presentation. This is a fun introduction to binary for any age group. Aims and Objectives of this presentation: Introduction to the idea of the CPU carrying instructions Introduction to Base 2 and Base 10 Introduction to binary to denary conversion Introduction to denary to binary conversion Use of ICT skills to use a free fast binary convertor to encourage retention

This resource will provide you with a second quick test for the Networks unit. This resource consists of teacher answers and success criteria. Within here are two versions of the test, written and e-format, pdf of teacher answers and PowerPoint and for use in lessons either in the classroom or for home learning and videos for students. Note that there are two versions here for the success criteria based on different exam boards.

This editable e-class and written class test versions of the Network Security unit, with teacher answers is aimed at GCSE (OCR) Computer Science. The paper is for a 40 minute test, with 24 marks awarded. A PowerPoint presentation with answers for further discussion in class is also provided, along with a video for students to use for revision and to aid with retention. The test consists of a mixture of past paper questions and answers based on the 2015, 2017, 2018 and sample paper questions and answers: Unit 1.4.1 - Threats to Computer Systems and Networks Unit 1.4.2 - Identifying and Preventing Vulnerabilities

This editable e-class and written class test versions of the Computer Networks unit, with teacher answers is aimed at GCSE (OCR) Computer Science. The paper is for a 40 minute test, with 30 marks awarded. A PowerPoint presentation with answers for further discussions in class is also provided, along with a video for students to use for revision and to aid with retention. The test consists of a mixture of past paper questions and answers based on the 2015, 2017, 2018 and sample paper questions and answers: Unit 1.3.1 – Network Topologies Unit 1.3.2 – Wired and Wireless Networks, Protocols and Layers

This editable e-class and written class test versions of the Ethical, Legal, Cultural and Environmental Impacts of Digital Technology unit, with teacher answers is aimed at GCSE (OCR) Computer Science. The paper is for a 30 minute test, with 16 marks awarded. A PowerPoint presentation with answers for further discussion in class is also provided, along with a video for students to use for revision and to aid with retention. The test consists of a mixture of past paper questions and answers based on the 2015, 2017, 2018 and sample paper questions and answers: Unit 1.6.1 – Ethical, Legal, Cultural and Environmental Impacts

This editable e-class and written class test versionss of the Systems Software unit, with teacher answers is aimed at GCSE (OCR) Computer Science. The paper is for a 30 minute test, with 21 marks awarded. A PowerPoint presentation with answers for further discussion in class is also provided, along with a video for students to use for revision and to aid with retention. The test consists of a mixture of past paper questions and answers based on the 2015, 2017, 2018 and sample paper questions and answers: Unit 1.5.1 – Operating Systems Unit 1.5.2 – Utility Software

This is a must have for all Computer Science A Level teachers. This is an easy to understand Binary Search Trees presentation with video to aid retention and student test sheet with teacher answer sheet. This presentation details the following: Depth First Algorithms Pre-order Traversal In-order traversal Post-order traversal Uses of traversals

This editable e-class and written class test versions, with teacher answers is aimed at GCSE (OCR) Computer Science. The paper is for a 30 minute test, with 21 marks awarded. A PowerPoint presentation with answers for further discussions in class is also provided, as is a video to aid with retention. The test consists of a mixture of past paper questions and answers based on the 2015, 2017, 2018 and sample paper questions and answers. This test is based on the following criteria: Image file types Compression Secondary storage File capacity RAM and ROM Virtual Memory

This editable e-class and written test paper with teacher answers is aimed at GCSE (OCR) Computer Science and the Systems Architecture unit. A PowerPoint presentation with answers for further discussions in class is also provided, along with a video for students to use for revision and to aid with retention. The paper is for a 30 minute test, with 22 marks awarded. The test consists of a mixture of past papers that include questions on the following: Unit 1.1.1 - Architecture of the CPU Unit 1.1.2 - CPU Performance Unit 1.1.3 - Embedded Systems

This test resource will provide you with a quick test for the Networks unit. This test can be used as a written version or as an e-test. This is a first part test with teacher answers and success criteria. There is a PowerPoint and video attached for use in lessons either in the classroom or for home learning. Note that there are two versions here for success criteria dependent on exam board criteria. Questions include the following: What is a network What is a LAN Advantages and disadvantages of a LAN What is a router What is a WAP What is a switch

This 50 - 60 minute lesson will introduce programming to a younger audience. It is fun and easy. This lesson is based on programming constructs such as iteration and sequencing and is a fast paced and thoughtful lesson, with extension exercises. Included in this pack are the following: A full lesson plan with answers A full presentation with coded videos included An answer key for the 2nd task A task sheet This is suitable for a Year 5 or 6 class as an introduction to movement and loops, however this can also be used for a Year 7 class as an introduction at secondary school.

This editable examination paper with teacher answers is aimed at AS Level Computer Science, it is the second exam paper in this series. The paper is for an exam of 1 hour, with 37 marks awarded. The exam consists of a mixture of past papers that include questions on the following: Boolean operators Storage capacity Binary and hexadecimal Binary addition Logical shift Arithmetic shift Logical statement ASCII Twos complement Sign and magnitude

This is a full first lesson pack, with full class presentation, lesson plan, and with fully tested codes for any teacher that has started out teaching Python basics, but is now ready to move up a step. This lesson is a follow on lesson from the first 7 lessons of Introduction to Python This lesson covers: Boolean Functions Understanding Comparison Operators Understanding Logical Operators Using if, elif and else Using multiple conditions Creating an INPUT function Using INPUT with IF This Developing Python first lesson is created to enable you to jump straight in with absolutely no specialist background whatsoever. This lesson has been created to be 1 hour in length. However, this can be broken down due to the nature of the presentation and is fully editable for teacher use. This is suitable for secondary education and for home schooling, but can be used for younger children, where applicable, or older learners with limited Python experience. This package includes: • Extensive presentation • Full lesson plan • Full and extensive codes (no need to code yourself) Practice session at the end of the class, this can be used for homework This lesson covers: Boolean Functions Understanding Comparison Operators Understanding Logical Operators Using if, elif and else Using multiple conditions Creating an INPUT function Using INPUT with IF

An Introduction to Python Lesson Seven. This is the last lesson in a series of 7 one-hour lessons, with full class presentation, lesson plan, and with fully tested codes. Easy to follow programming, with all codes, to make teaching Python programming effortless. This lesson covers: Open e-book test/exam based on all previous lessons This test has been created to be 1 hour in length. This is suitable for secondary education and for home schooling, but can be used for younger children, where applicable, or older learners with little Python experience. This package includes: Presentation Lesson plan Full and extensive codes Full teacher answers

An Introduction to Python Lesson One. This is the 1st lesson in a series of 7 one-hour lessons, with full class presentation, lesson plan, and with fully tested codes for any teacher who has little experience of coding, or wants to jump straight in. Easy to follow programming, with all codes and tailor-made videos, to make teaching Python programming effortless. This lesson covers: Introduction to using an IDE Using correct syntax Understanding variables Understanding lists and tuples Understanding different data types Using indentation and comments Using basic operators This Introduction to Python lesson is created to enable you to jump straight in with absolutely no specialist background whatsoever. This lesson has been created to be 1 hour in length. However, this can be broken down due to the nature of the presentation and is fully editable for teacher use. This is suitable for secondary education and for home schooling, but can be used for younger children, where applicable, or older learners with little Python experience. This package includes: Extensive presentation Full lesson plan Full and extensive codes (no need to code yourself) Practice session at the end of the lesson, this can be used for homework

Developing Python Lesson Two. This is a full lesson pack, with full class presentation, lesson plan, and with fully tested codes for any teacher that has started out on teaching the basics but is now ready to move up a step. This lesson covers: Getting to know Python loops Understanding how to use While loops Creating a One-Line loop Creating an Infinite loop Creating a command line interface with a while True loop This lesson is the 2nd lesson in a follow-on series from the first 7 lessons of Introduction to Python This Developing Python second lesson is created to enable you to jump straight in with absolutely no specialist background whatsoever. This lesson has been created to be 1 hour in length. However, this can be broken down due to the nature of the presentation and is fully editable for teacher use. This is suitable for secondary education and for home schooling, but can be used for younger children, where applicable, or older learners with little Python experience. This lesson covers: Getting to know Python loops Understanding how to use While loops Creating a One-Line loop Creating an Infinite loop Creating a command line interface with a while True loop This package includes: Extensive presentation Full lesson plan Full and extensive codes (no need to code yourself) Practice session at the end of the lesson, this can be used for homework

Developing Python Lesson Three. This is a full 1 hour lesson pack, with full class presentation, lesson plan, and with fully tested codes for any teacher that has started out on teaching the basics but is now ready to move up a step. This lesson covers: Using For loops Using iteration Creating functions Creating and understanding parameters Understanding arguments Creating functions independently This lesson is the 3rd lesson following on from the original series of 7 lessons called Introduction to Python This Developing Python 3rd lesson is created to enable you to jump straight in with absolutely no specialist background whatsoever. This lesson has been created to be 1 hour in length. However, this can be broken down due to the nature of the presentation and is fully editable for teacher use. This is suitable for secondary education and for home schooling, but can be used for younger children, where applicable, or older learners with little Python experience. This package includes: Extensive presentation Full lesson plan Full and extensive codes (no need to code yourself) Practice session at the end of the class, this can be used for homework This lesson covers: Using For loops Using iteration Creating functions Creating and understanding parameters Understanding arguments Creating functions independently

An Introduction to Python Lesson Two. This is the 2nd lesson in a series of 7 one-hour lessons, with full class presentation, lesson plan, and with fully tested codes for any teacher who has little experience of coding, or wants to jump straight in. Easy to follow programming, with all codes supplied and tailor-made videos, to make teaching Python programming effortless. This lesson covers: Introduction to Python and IDLE Declaring data types in code The purpose of comments Using casting Understanding program cases Global and Local variables This Introduction to Python lesson is created to enable you to jump straight in with absolutely no specialist background whatsoever. This lesson has been created to be 1 hour in length. However, this can be broken down due to the nature of the presentation and is fully editable for teacher use. This is suitable for secondary education and for home schooling, but can be used for younger children, where applicable, or older learners with little Python experience. This package includes: Extensive presentation Full lesson plan Full and extensive codes (no need to code yourself) Practice session at the end of the lesson, this can be used for homework