Answer Key
Module 4: Defeat the Robots
Module 6: Quiz
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
U.S. Standards
- CCSS-Math: 7.EE.B.4, MP.1, MP.2, MP.4, MP.7
- CCSS-ELA: 6-8.RST.3, 6-8.RST.4, 6-8.RST.7, RI.9-10.3, RI.11-12.3
- CSTA: 2-AP-11, 2-AP-12, 2-AP-13, 2-AP-15, 2-AP-16, 2-AP-17, 3A-AP-17, 3A-AP-22
- CS CA: 6-8.AP.11, 6-8.AP.12, 6-8.AP.13, 6-8.AP.15, 6-8.AP.16, 6-8.AP.17, 9-12.AP.12, 9-12.AP.16
- ISTE: 1.c, 1.d, 4.d, 5.c, 5.d, 6.b
U.K. Standards
Key stage 3
Pupils should be taught to:- design, use and evaluate computational abstractions that model the state and behaviour of real-world problems and physical systems
- understand several key algorithms that reflect computational thinking [for example, ones for sorting and searching]; use logical reasoning to compare the utility of alternative algorithms for the same problem
- undertake creative projects that involve selecting, using, and combining multiple applications, preferably across a range of devices, to achieve challenging goals, including collecting and analysing data and meeting the needs of known users
- create, reuse, revise and repurpose digital artefacts for a given audience, with attention to trustworthiness, design and usability
- understand a range of ways to use technology safely, respectfully, responsibly and securely, including protecting their online identity and privacy; recognise inappropriate content, contact and conduct, and know how to report concerns
Key stage 4
All pupils must have the opportunity to study aspects of information technology and computer science at sufficient depth to allow them to progress to higher levels of study or to a professional career. Pupils should be taught to:- develop their capability, creativity and knowledge in computer science, digital media and information technology
- develop and apply their analytic, problem-solving, design, and computational thinking skills
- understand how changes in technology affect safety, including new ways to protect their online privacy and identity, and how to report a range of concerns
Description
In this advanced lesson plan, students will be introduced to the physics library as they build Gravity Sling, a projectile game inspired by Angry Birds (TM). They define the behaviors of different kinds of projectiles and use physics commands such as impulse, gravity and collisions to build the game. Ninja Runner is an advanced physics platformer game with a boss fight sequence that challenges them to apply all the concepts and skills they have learned.
Students who successfully complete this lesson plan will demonstrate excellent understanding of a variety of programming concepts and computational thinking skills, and will be able to design and implement projects of moderate to advanced complexity.
Topics
- List variables
- Structured data
- Loops
- Advanced flow control
- Physics attributes
- Velocity
- Impulses
- Collisions
- Sending and receiving messages
- Parameters
- Functions
- Advanced conditional logic
- Math
- Boolean operators
What Students Learn
- Build a complete projectile-based physics game
- Build a complete platformer game using physics
- Programmatically generate never-ending platforms
- Program a hero with multiple actions and access them via keys
- Use cloud variables and a list data structure to implement a leaderboard
- Use variables to keep score and game speed
- Program enemy A.I.
Technical Requirements
* Online courses require a modern desktop computer, laptop computer, Chromebook, or Netbook with Internet access and a Chrome (29+), Firefox (30+), Safari (7+), or Edge (20+) browser. No downloads required.
Lesson
11 : Receiving Values
Programming 302
Time: 60+ minutes
Introduction
Tynker Blocks Introduced
Vocabulary
Objectives
Materials
Warm-Up (15 minutes)
Activities (45 minutes)
Facilitate as students complete all Receiving Values modules on their own:
1. Concepts (Concepts)2. Learn to Shoot (DIY)
3. Hit the Enemy (DIY)
4. Defeat the Robots (Puzzle)
5. Create Your Own 2D Shooter (DIY)
6. Quiz (Multiple-choice)