COMPREHENSIVE K-12 CODING CURRICULUM - Tynker
COMPREHENSIVE K-12 CODING CURRICULUM Tynker
BLOCKS What is Tynker? CODE THE EASIEST WAY TO TEACH COMPUTER SCIENCE IN SCHOOLS BLOCK AND TEXT CODING COMPREHENSIVE CURRICULUM STEM COURSES Trusted by 100,000 schools AVAILABLE ON WEB & MOBILE PLATFORMS AUTOMATIC ASSESSMENTS CLASSROOM MANAGEMENT PROFESSIONAL DEVELOPMENT Tynker
Tynker empowers kids to become makers t r a t S n O 3 t a e p e R BLOCK CODING ROBOTICS & DRONES TEXT CODING HARDWARE AR & MINECRAFT Attack
60,000,000 users world-wide! Tynker
Trusted by thousands of districts and schools 100 Thousand Schools use Tynker 200 Million Coding lessons completed thousands more! 7 Billion Lines of code written by kids! Tynker
Grade-based learning progression Pre-reader Elementary School Middle School High School Voice-enabled and tappable Drag & drop text blocks Syntax-free language blocks Text-coding JS, Python, Java, AP The only platform that takes them all the way Tynker
1,000 hours of scaffolded curriculum 10 pre-reader courses 300 DIY projects 12 block coding courses 500 Hour of Code challenges 12 STEM courses 10 text-coding courses 4 electives: LEGO, micro:bit, AR, drones Tynker
Tynker curriculum Packages Available for 2021-2022 School Year Course Name Grade Level 10 Pre-reader Courses Space Cadet Dragon Spells Programming 1A, 1B Programming 101, 102 Lego WeDo Coding 6 STEM Level 1 Courses Augmented Reality Microbit 101 Programming 201, 202 6 STEM Level 2 Courses Programming 301, 302 Drone Coding JavaScript 101 Python 101 Web Development MicroPython 101 Python 201 Data Science 1 Java 101 Intro to CS with Art (Processing) AP Computer Science Principles AP Computer Science A K-2 K-2 K-2 K-2 3-4 1-5 3-5 3-8 6 & up 5-6 6-8 7-8 5 & up 6 & up 6 & up 6 & up 6 & up 8 & up 9 & up 9 & up 9 & up 9 & up 9 & up Beginner Beginner Intermediate Beginner Beginner Beginner Beginner Intermediate Intermediate Intermediate Intermediate Advanced Beginner Advanced Advanced Advanced Advanced Advanced Advanced Advanced Beginner Intermediate Advanced Not Available on iPad. Only K-2 Code Prep available on Tynker Junior App Elementary School Middle School K-8 School High School Tynker
Scaffolded coding curriculum 200 Lesso ns Pre-reader Pack Programming 1A Programming 1B Programming 101 Programming 102 Programming 100 Programming 201 Programming 202 Programming 301 Programming 302 Programming 300 JavaScript 1 Python 1 Web Dev 1 Python 2 Tynker
STEM Coding Courses 200 Lesso ns Integrate coding into all subjects with over 200 PBL lessons Tynker
Mobile apps included with plans Tynker Junior Ages 4-6 Tynker Ages 7 Use picture-coding, no words Control drones and robots Learn Block-coding and Swift Model 3D mobs and edit behaviors Tynker
Powerful tools save time and effort for educators Educator Dashboard - Distance Learning - Import student roster - Guides and answers keys - Lesson plans - Mastery charts - Shared showcases - Asynchronous chats - Help & forums - Resources and help Tynker
Tynker automatically tracks student mastery Students are automatically assessed as they - View interactive tutorials - Solve coding puzzles - Complete projects - Answer quizzes - Finish lesson modules Student scorecards and class metrics are updated in real time Tynker
Tynker School Plans (Page 1 of 2) K-2 SCHOOL PLAN ELEMENTARY SCHOOL PLAN MIDDLE SCHOOL PLAN 10 pre-reader courses 10 pre-reader courses 6 block-coding courses 4 block-coding courses * 4 block-coding courses 5 text-coding courses 3 electives (AR, micro:bit, LEGO) 3 electives (AR, micro:bit, drone) via Tynker Junior, Tynker Apps 6 STEM courses 6 STEM courses * Via tynker.com 500 Hour of Code puzzles 500 Hour of Code puzzles 200 do-it-yourself tutorials 200 do-it-yourself tutorials 400 students - 2,000 per school year OR 15 per student (50 student min) 400 students - 3,000 per school year OR 20 per student (50 student min) 400 students - 3,000 per school year OR 20 per student (50 student min) Combination plans and multi-year discounts available. Email sales@tynker.com Tynker
Tynker School Plans (Page 2 of 2) HIGH SCHOOL PLAN K-8 SCHOOL PLAN ADVANCED PLACEMENT PLAN 10 pre-reader courses 10 block-coding courses Python 1, Python 2 AP Computer Science Principles OR 5 text-coding courses JavaScript 1, Web Dev 1, Java 1 AP Computer Science A 4 electives (AR, m:bit, LEGO, drone) MicroPython, Data Science 1 12 STEM courses 500 Hour of Code puzzles 200 do-it-yourself tutorials 600 students - 4,400 per school year OR 25 per student (100 student min) 7 text-coding courses 1 Art & computing course 2 advanced block-coding courses 100 do-it-yourself tutorials 150 students - 3,000 per school year OR 50 per student (20 student min) Choice of College Board endorsed AP Curriculum Framework aligned 20 students - 2,500 per school year Combination plans and multi-year discounts available. Email sales@tynker.com Tynker
Educators Tynker! “My students gained a better understanding of computer programming. They also gained a better understanding of the learning process and how to get feedback about a product and revise from that feedback.” - Lisa Sato 6th Grade Teacher “Don’t be afraid to teach it just because you don’t have a background in computer science – anyone can learn with a visual programming language like Tynker.” - Laura Hanna Computer Lab Teacher & Robotics Coach Tynker. All rights reserved. Tynker
6 block-coding courses 5 text-coding courses 3 electives (AR, micro:bit, drone) 6 STEM courses 500 Hour of Code puzzles 200 do-it-yourself tutorials K-2 SCHOOL PLAN 400 students - 2,000 per school year OR 15 per student (50 student min) 10 pre-reader courses 4 block-coding courses * via Tynker Junior, Tynker Apps .
Source Coding Techniques 1. Fixed Length Coding In fixed length coding technique all symbols assigned with equal length because the coding don’t take the probability in account. The benefit of the fixed length code is ease of applied (easy in coding and decoding) Example1: Let x { x 1,x 2, ,x 16} where pi 1/16 for all i , find ζ
Coding ClinicReferences 1 Injury and Poisoning Coding Clinic 4Q 2008 ICD-9-CM Official Guidelines for Coding and Reporting Effective October 1, 2008 Chapter 17: Injury and Poisoning (800-999) Coding of Injuries When coding injuries, assign separate codes for ea
1.2 Employment outcomes of coding bootcamp training 2 2 Employment and the coding skills shortage 5 2.1 Background: ICTs and employment 6 2.2 ICT skills shortages 7 2.3 Summary 13 3 Learning to code: Adoption of the coding bootcamp model 13 3.1 Coding bootcamp models in developing countries 14 3.2 Coding bootcamp business models 18
8 Bernd Girod: EE368b Image and Video Compression Introduction no. 15 Outline EE368b n Some fundamental results of information theory n Scalar quantization and vector quantization n Human visual perception n Predictive coding n Transform coding n Resolution pyramids and subband coding n Interframe coding n Motion estimation n Motion compensated coding n Coding standards JPEG, H.261, H.263 and MPEG
the importance of coding in classrooms across Ontario. Her site, Integrating Coding Into the Elementary School Curriculum, has many activities and resources and is sorted by subject and strand. SPICE model Most of the coding and robotics activities are design challenges that follow the technological design process in the curriculum document.
3.0 TYPES OF CURRICULUM There are many types of curriculum design, but here we will discuss only the few. Types or patterns are being followed in educational institutions. 1. Subject Centred curriculum 2. Teacher centred curriculum 3. Learner centred curriculum 4. Activity/Experience curriculum 5. Integrated curriculum 6. Core curriculum 7.
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2nd Grade ELA-Reading Curriculum . Course Description: In 2. nd. grade, readers continue to focus on print with a heavier emphasis on meaning. Students rely on strategies to figure out words, understand author’s craft, and build ideas about the books they read. Students learn from books through informational reading on familiar topics while continuing to build word solving strategies .
