Computational thinking: Progress outcomes, exemplars, and snapshots
CT: Progress outcome 4
In authentic contexts and taking account of end-users, students decompose problems to create simple algorithms using the three building blocks of programing: sequence, selection, and iteration. They implement these algorithms by creating programs that use inputs, outputs, sequence, basic selection using comparative operators, and iteration. They debug simple algorithms and programs by identifying when things go wrong with their instructions and correcting them, and they are able to explain why things went wrong and how they fixed them.
Students understand that digital devices represent data with binary digits and have ways of detecting errors in data storage and transmission. They evaluate the efficiency of algorithms, recognising that computers need to search and sort large amounts of data. They also evaluate user interfaces in relation to their efficiency and usability.
Exemplar nine: Robotics challenges
Exemplar ten: Parity bit magic
Exemplar eleven: Beat the goalie
Exemplar twelve: Comparing search algorithms
The diagram above shows the alignment between levels 1–5 of the New Zealand Curriculum and the progress outcomes for computational thinking. The uneven spacing of the progress outcomes reflects the different learning and time required for each outcome and is based on data collected during the development of the digital learning progressions.
Progress outcomes 6–8 set out the learning expected for students engaging in more intensive and specialised digital technologies programmes for NCEA 1, 2 and 3. For this reason, they are directly aligned with levels 6–8 of the curriculum.
- Download the glossary:
The progress outcomes for years 1–10 are illustrated by exemplars that show the breadth of students' expertise at that point on the learning progression.
Each exemplar has four parts: annotation, background to the learning task, the learning task, and the student's response.
The annotation highlights how the student draws on their digital technological knowledge and skills in order to respond to the task.
The student response comprise work samples and/or transcripts of the interactions between the student and the teacher or between the student and their peers.
The exemplars also highlight links to the key competencies and literacy and numeracy.
The progress outcomes that span years 11–13 are illustrated by snapshots that highlight aspects of students' expertise at that point on the learning progression.
The purpose of the snapshots is to illustrate the sophistication of a student's conceptual understanding through insights into their thinking. Each snapshot comprises a brief description of the learning task and a few insights into what the student knows and can do as they work on the task.
The "insights" in the snapshots use the student voice to show their thinking and the sophistication of the actions they take as they apply their understanding to the components of the learning task.
The snapshots are not assessment tasks and they don't fully describe students' responses to the kind of specialist, complex learning tasks that should form a typical digital technologies learning programme in years 11–13.
Find out more
In December 2017, the technology learning area was revised to strengthen digital technologies in The New Zealand Curriculum. The goal of this is to ensure all learners have the opportunity to become digitally capable individuals. The paper below describes the development of the revised curriculum content. It includes details on the approach, expertise used (curriculum and subject matter experts), and the research underpinning the revision.
- Download the paper:
The New Zealand Curriculum Online
Read more about the new technology curriculum content here: Digital technologies in The New Zealand Curriculum.