Elementary School course

micro:bit Studio

  • GRADES 3-5
  • INTERMEDIATE
  • WEB
  • 16 LESSONS

Answer Key

Module 5: Expressions Puzzle

Module 7: Number Guessing Game!

U.S. Standards

  • CCSS-Math: MP.1, MP.2, MP.4
  • CCSS-ELA: RF.3.4, RF.4.4, RF.5.4 RF.3.4.A, RF.4.4.A, RF.5.4.A
  • CSTA: 1B-AP-10, 1B‑AP‑11, 1B‑AP‑12, 1B‑AP‑15
  • CS CA: 3-5.AP.11, 3‑5.AP.13, 3‑5.AP.14, 3‑5.AP.17
  • ISTE: 1.c, 1.d, 4.d, 5.c, 5.d, 6.b

U.K. Standards

Key stage 2
Pupils should be taught to:
  • design, write and debug programs that accomplish specific goals, including controlling or simulating physical systems; solve problems by decomposing them into smaller parts
  • use logical reasoning to explain how some simple algorithms work and to detect and correct errors in algorithms and programs
  • understand computer networks, including the internet; how they can provide multiple services, such as the World Wide Web, and the opportunities they offer for communication and collaboration
  • use technology safely, respectfully and responsibly; recognise acceptable/unacceptable behaviour; identify a range of ways to report concerns about content and contact

Lesson 5: π-rates

Course: | Web

  • Chapter Intro
  • Mod Operator
  • Numeric Input on micro:bit
  • Expressions
  • Expressions Puzzle
  • DIY Intro
  • Number Guessing Game!
  • Quiz

Description

Introduce your campers to physical computing with micro:bit and Tynker Blocks. The micro:bit is a tiny, microcomputer with programmable LEDs, light, and temperature sensors, physical connection pins, motion sensors, and wireless communication via radio and Bluetooth. Hands-on learning with Tynker’s curriculum engages campers as they see their abstract programs come to life on a tangible physical device.

Using a combination of interactive lessons, concept explanations, videos, puzzles, quizzes, and DIY projects, this course teaches campers to write block coding programs and then deploy the code to the micro:bit wirelessly. Students can use code to program physical buttons, display messages on the micro:bit, animate the LEDs, simulate dice and coin flips, and detect gestures and shakes.

The lesson plans in this course build and reinforce engineering, math, and science skills, while applying programming concepts such as repetition, events, conditional logic, variables, and functions with a physical computing device.

Each lesson is designed for a class period of 45-60 minutes. All student work is automatically tracked and assessed, and you'll be able to monitor individual progress and mastery charts for your campers.

This course is recommended for campers who are just starting to get familiar with block programming. More advanced campers who are familiar with Python may enroll in MicroPython 101 where they use MicroPython, a Python-like text-based programming language to program micro:bit.

This course is supported online as well as on an iPad through the Tynker app.

Recommended Accessories: This course requires micro:bit devices (not included). You may purchase these separately at a variety of resellers.

Topics Covered: micro:bit command library, variables, deploying code to the micro:bit, types of loops, reading sensor values, conditional logic, programming the LED grid, lists, and arrays.

What Students Learn

  • Program micro:bit button-click events
  • Display a scrolling message on the micro:bit
  • Create animated LED displays using loops
  • Simulate a coin toss using conditional logic
  • Create a virtual die using random numbers
  • Detect gestures using the motion sensor
  • Learn to use math operators and expressions

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 5 : π-rates
micro:bit Studio

Time: 45+ minutes

Introduction

Tynker Blocks Introduced

Vocabulary

Objectives

Materials

Warm-Up (5 minutes)

Activities (40+ minutes)

Facilitate as students complete all π-rates modules on their own:

1. Chapter Intro (Introduction)
2. Mod Operator (Introduction)
3. Numeric Input on micro:bit (Introduction)
4. Expressions (Introduction)
5. Expressions Puzzle (Puzzle)
6. DIY Intro (Video)
7. Number Guessing Game (DIY)
8. Quiz (Multiple-choice)

Extended Activities (10 minutes)