Musical Instrument
Experience: 1st year, 1st quarter
Practice: Developing and Using Abstractions, Creating computational artifacts, Testing and refining computational artifacts, and Communicating about computing
Concept: Algorithms and Control
Length: 40+
Overview and Purpose
Coders will trigger sound blocks to play a musical instrument made out of different sprites. The purpose of this project is to review creating sprites and triggering sound blocks when a sprite is tapped. Another purpose of this project is to also introduce remixing.
Project Extensions
Suggested extensions
Adding even more (5+ minutes):
If time permits, encourage coders to explore what else they can create in ScratchJr. Although future lessons will explore different features and blocks, early experimentation should be encouraged.
While facilitating this process, monitor to make sure coders don’t stick with one feature for too long. In particular, coders like to edit their sprites/backgrounds by painting on them or taking photos. It may help to set a timer for creation processes outside of using blocks so coders focus their efforts on coding.
Resources, suggestions, and connections
Standards reinforced:
- 1A-AP-10 Develop programs with sequences and simple loops, to express ideas or address a problem
Practices reinforced:
- Testing and refining computational artifacts
- Creating computational artifacts
Concepts reinforced:
- Algorithms
- Control
Suggested questions:
- What else can you do with ScratchJr?
- What do you think the other blocks do?
a. Can you make your sprites do ______? - What other sprites can you add to your project?
- What else might we find at a performance?
- Could you create a band, choir, orchestra, DJ performance, steel band, drumline, gamelan, mariachi band, etc.?
- What other sounds might we hear when the green flag is pressed?
Similar projects:
Have coders explore the sample projects built into ScratchJr (or projects from other coders), and ask them to find code similar to what they worked on today.
Standards reinforced:
- 1A-AP-10 Develop programs with sequences and simple loops, to express ideas or address a problem
Practices reinforced:
- Testing and refining computational artifacts
Concepts reinforced:
- Algorithms
Note: Coders may need a gentle reminder we are looking at other projects to get ideas for our own project, not to simply play around. For example, “look for five minutes,” “look at no more than five other projects,” or “find three projects that each do one thing you would like to add to your project.”
Generic questions:
- How is this project similar (or different) to something you worked on today?
- What blocks did they use that you didn’t use?
a. What do you think those blocks do? - What’s something you like about their project that you could add to your project?
Differentiation
Less experienced coders
ScratchJr is simple enough that it can be picked up relatively quickly by less experienced coders. However, for those who need additional assistance, pair them with another coder who feels comfortable working cooperatively on a project. Once coders appear to get the hang of using ScratchJr, they can begin to work independently.
More experienced coders
Because ScratchJr is not inherently difficult, experienced coders might get bored with simple projects. To help prevent boredom, ask if they would like to be a “peer helper” and have them help their peers when they have a question. If someone asks for your help, guide them to a peer helper in order to encourage collaborative learning, and remind them the helper is “hands off” and does not take over working on another person’s project.
Another approach is to encourage experienced coders to experiment with their code or give them an individual challenge or quest to complete within a timeframe (e.g., a reverse engineering challenge).
Debugging Exercises (1-5+ minutes each)
Debugging exercises
Resources and suggestions
Standards reinforced:
- 1A-AP-14 Debug (identify and fix) errors in an algorithm or program that includes sequences and simple loops
Practices reinforced:
- Testing and refining computational artifacts
Concepts reinforced:
- Algorithms
- Control
Display one of the debugging exercises and ask the class what they think we need to fix in our code to get our project to work correctly. Think out loud what might be wrong (e.g., did I use the wrong trigger block? Did I forget to repeat something? Did I put a block in the wrong place? Am I missing blocks?, etc.). Explain that mistakes in code are called bugs. To fix the bugs students need to find the bug and get rid of it. This is called debugging. Ask the class to talk with a neighbor about how we might fix the code. Have a volunteer come up to try and debug the code (or demonstrate how). Repeat with each debugging exercise.
Unplugged Lessons and Resources
Standards reinforced:
- 1A-AP-08 Model daily processes by creating and following algorithms (sets of step-by-step instructions) to complete tasks
Although each project lesson includes suggestions for the amount of class time to spend on a project, BootUp encourages coding facilitators to supplement our project lessons with resources created by others. In particular, reinforcing a variety of standards, practices, and concepts through the use of unplugged lessons. Unplugged lessons are coding lessons that teach core computational concepts without computers or tablets. You could start a lesson with a short, unplugged lesson relevant to a project, or use unplugged lessons when coders appear to be struggling with a concept or practice.
Suggested unplugged lessons:
- The hokey pokey
a. Using code to program the hokey pokey. - Peanut butter and jelly robot
b. This is an activity about robotics programming. Learners will discover how precise programmers have to be as they instruct a friend to make a peanut butter and jelly sandwich. This is a great activity for both the "programmer" and the "robot" to use their creativity to its fullest.
Reflection and Sharing
Reflection suggestions
Coders can either discuss some of the following prompts with a neighbor, in a small group, as a class, or respond in a physical or digital journal. If reflecting in smaller groups or individually, walk around and ask questions to encourage deeper responses and assess for understanding. Here is a sample of a digital journal designed for Scratch (source) and here is an example of a printable journal useful for younger coders.
Sample reflection questions or journal prompts:
- How did you use computational thinking when creating your project?
- What’s something we learned while working on this project today?
- What are you proud of in your project?
- How did you work through a bug or difficult challenge today?
- How did you help other coders with their projects?
- What did you learn from other coders today?
- What’s a fun algorithm you created today?
- What’s something you could create next time?
- What questions do you have about coding?
- What was challenging today?
- Could you create a real song with the musical simulation you just created?
- How do you think you can make Scratch Cat play multiple sounds at once?
- What did you learn about recording sounds?
- Did you accidentally record other sounds?
- How could you change your environment to ensure you only record the sounds you want?
- More sample prompts (may need adapting for younger coders)
Sharing suggestions
Standards reinforced:
- 1A-AP-15 Using correct terminology, describe steps taken and choices made during the iterative process of program development
Practices reinforced:
- Communicating about computing
- Fostering an inclusive culture
Concepts reinforced:
- Algorithms
- Control
- Modularity
- Program development
Peer sharing and learning video: Click here (1:33)
At the end of class, coders can share with each other something they learned today. Encourage coders to ask questions about each other’s code or share their journals with each other. When sharing code, encourage coders to discuss something they like about their code as well as a suggestion for something else they might add.