
Science • 18 • 7 students • Created with AI following Aligned with the NCCA Primary Curriculum, Junior Cycle & Senior Cycle (Leaving Cert) specifications
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measurement of area and or volume using explore expand explain for junior cert science the physcial word split the lesson into two 9 minute explore expand explain as we have two teachers
Subject: Science (The Physical World — Junior Cycle Science Specification, Ireland)
Age Group: 12–13 years (Year 1 or Year 2 of Junior Cycle)
Strand: The Physical World
Strand Units: Physical quantities and units; Forces
Time: 18 minutes (9 minutes x 2 parts, co-taught by 2 teachers)
Number of Students: 7
Key Learning Outcome:
Students will be able to:
Key Learning Intentions:
This lesson addresses the Junior Cycle Science Learning Outcomes under The Physical World strand:
This 18-minute co-taught lesson is split into two 9-minute blocks using the Explore, Expand, Explain pedagogical model. Each teacher leads one 9-minute segment. Each phase fosters active learning, critical thinking, and student collaboration.
Setup: Students are presented with a mysterious ‘parcel’ (a shoebox wrapped in brown paper).
“If I wanted to wrap this as a gift, how much paper would I need?”
Task: Working in pairs, students estimate the total surface area.
They then use ruler/metre sticks to measure the dimensions (length, width, height).
They sketch and label their shoebox on graph paper.
Students use their own formulas (or recall from prior learning) to individually calculate the total surface area of the box.
Teacher provides additional objects (tablet, notebook) to encourage comparisons.
Encouraging prompts:
The teacher summarises key area concepts:
Quick questioning and mini whiteboard quiz:
Use peer correction for answers.
Hook: Show a set of three completely different items — a wooden block, a rock, and a squishy ball — all roughly “similar in size.”
“Can we trust our eyes to guess volume?”
Pairs predict which object has the greatest volume.
Activity:
Students compare calculated volume vs. displaced volume.
Are they close? Why?
Use guiding questions:
Each student notes one interesting observation or difficulty they had and shares it with the class (light peer discussion).
Teacher recaps:
Pose extension challenge:
“If 1 cm³ = 1 ml, how many litres in 1500 cm³?”
Mini reflection:
✔️ Observational assessment during group tasks.
✔️ End-of-lesson mini whiteboard quiz.
✔️ Exit ticket: One new word learned, one question they still have.
“Today we went from guessing with our eyes to proving with measurement. Scientists do this every day. Next time, we’ll look at how errors creep in and how we can improve accuracy like real engineers.”
This lesson blends accurate skill-building with active involvement to lay the practical groundwork for future physics concepts, such as force, density, and energy calculations. It’s purposefully short, engaging, and reflective—perfect for formative assessment and team teaching.
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