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Floating and Sinking Forces

Science • 60 • 25 students • Created with AI following Aligned with Australian Curriculum (F-10)

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Science
60
25 students
16 May 2025

Teaching Instructions

Learning Intentions To demonstrate that any object that is lowered into water loses weight. To represent weight and buoyancy force of a floating object using appropriate force arrows.

success Criteria I can understand that objects placed into water lose weight. I can draw force arrows for objects in water. I can explain that buoyancy and weight are the two opposing forces acting on objects in fluids.

year 7 NSW Nesa

Floating and Sinking Forces


WALT (We Are Learning To)

  • Demonstrate that any object lowered into water loses weight due to buoyancy.
  • Represent the opposing forces of weight and buoyancy on floating objects using appropriate force arrows.

Curriculum Alignment

Australian Curriculum:
Stage 4 – Year 7 Science, NSW Syllabus
Strand: Physical World
NSW Syllabus Code: SC4-10PW
Outcome:
The student describes the action of unbalanced forces on the motion of objects.

Content Focus:

  • Investigate the effects of forces (including gravitational and buoyant) on objects.
  • Use force diagrams to represent the direction and size of forces acting.

Success Criteria

By the end of the lesson, students will be able to:

✅ Understand that objects lose apparent weight when submerged in water.
✅ Accurately draw and label force arrows to show opposing forces.
✅ Explain how buoyancy and weight act on objects submerged in water.


Duration

60 minutes
Class size: 25 students
Grouping: Pairs with class discussion (whole group)


Required Materials

  • Spring scales
  • Measuring cylinders or transparent containers
  • Small objects of varying materials (plastic, wood, metal)
  • Water trays
  • Force arrow templates or whiteboard markers
  • Force diagram worksheets (printed in dyslexia-friendly font: Lexend Deca or OpenDyslexic)
  • iPads or laptops (for selected extension tasks)
  • Laminated definitions of key vocabulary (buoyancy, weight, force, gravity)
  • Force arrows (laminated physical arrows for kinesthetic activity)

Lesson Breakdown

0:00–0:10 | Engage – Provocative Demonstration

Activity:
Teacher lowers a rubber duck into water while it is suspended from a spring scale.
Students observe the needle shift as the object seems to weigh less.

Teacher Talk:
"Why would this object appear to weigh less just because it’s in water? If the same duck weighed more in the air, what’s going on inside the water?"

Think-pair-share: Students predict and discuss in pairs.

Formative check:
Elicit a few responses highlighting ideas of ‘support from water’ or ‘water pushing up.’

0:10–0:25 | Explore – Small Group Experiment

Task: “What’s the Weight Underwater?”

  • Students work in pairs.
  • Each group selects 2-3 objects.
  • Measure the object’s weight in air using spring scale.
  • Lower it into water — measure the new reading.
  • Record data in a table (worksheet provided).

Worksheet columns:
📌 Object | Weight in Air (N) | Weight in Water (N) | Difference (N)

Observe:
Students plot basic 'before and after' values.

🧠 Teacher circulates, supporting measurement accuracy and prompting key vocabulary use.


0:25–0:35 | Explain – Force Diagram Construction

Mini Lesson:
Teacher walks through a visual explanation of two forces acting on a submerged or floating object:

  • Downward force: weight
  • Upward force: buoyant force

Anchor Model:
Simple diagram showing a floating object with arrows:

  • Weight (↓) – labelled with Newtons
  • Buoyancy (↑) – always opposes gravity up

Students use whiteboards or templates to draw force diagrams for:

  1. A wooden block floating
  2. A small stone sinking

✅ Encourage use of ruler and consistent arrow sizes
✅ Emphasise that balanced forces = floating
Unbalanced forces = sinking


0:35–0:50 | Elaborate – Kinesthetic Stations

Station Rotation:
(5 minutes per station in small groups)

🧪 Station 1: Buoyancy Body Challenge
Use physical arrow cards and attach to a human volunteer acting as the object. Whole group choreographs the direction/size of forces.

🎨 Station 2: Magnetic Force Match
Match correct force arrows to images of submerged objects.

📊 Station 3: Data Detectives
Reanalyse experimental data: Identify which objects would float/sink based on weight difference.

💬 Station 4: Roleplay Explanation
Pairs explain what’s happening using toy figures — student A = water, student B = object.


0:50–0:58 | Evaluate – Think Alouds

Whole Class Discussion:
Use sentence starters to review learning:

  • “When I put the object in water it…”
  • “The force pushing up is called…”
  • “If the object floats, the forces are…”

Exit Ticket Question:
“Draw a diagram showing the forces on a floating apple in water.”


Differentiation Strategies

For Diverse Learners:

  • Visual learners: Anchor charts, force diagram cards, clear labelling of arrows
  • EAL/D students: Bilingual glossaries, picture cards
  • Students with dyslexia: Lexend Deca font worksheets, minimal text per line, dyslexia-friendly colour coding (blue background)
  • Hands-on/kinesthetic learners: Use of physical reinforcement activities, real-life experiments

For Advanced Learners (Extension):

  • Investigate Archimedes’ Principle and real-world examples (e.g. boats, submarines).
  • Independently calculate buoyant force using displacement volume.
  • Use digital tools (e.g. PhET force simulation – optional pre-approved extension).

Assessment Opportunities

  • Formative: Observation during paired work, accuracy of diagrams, quality of discussion
  • Summative: Exit ticket diagram and force explanation
  • Differentiated Check-ins: Targeted questioning for Tier 2 & Tier 3 learners

Vocabulary Focus

WordDyslexia-friendly flashcard definition
BuoyancyThe force that pushes things up in water
WeightHow heavy something is from gravity
ForceA push or a pull
GravityThe force pulling things down

These should stay visible throughout the session on the classroom wall or screen.


Teacher Reflection Prompts (Post-Lesson)

  • Did most students grasp the weight change in water?
  • How confidently could they draw and describe force diagrams?
  • Was the kinesthetic activity engaging for reluctant learners or those with additional needs?
  • How well did the extension learners investigate beyond the basics?

This lesson is built to wow students with practical experience, cross-modal learning, and real-world relevance — encouraging scientific thinking, questioning and communication using Year-7-appropriate concepts and vocabulary.

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