Reversible Changes
CONCEPTUALDemonstrate that dissolving, mixing, and changes of state are reversible changes where no new materials are formed
Mastery Evidence
- Define a reversible change as one where the original materials can be recovered
- Give at least three examples of reversible changes: melting, freezing, dissolving, evaporating
- Explain how to reverse each example (e.g. freeze melted chocolate, evaporate a solution)
Assessment Prompt
“Can [child] explain that melting chocolate or dissolving sugar can be undone — you can get the original material back — because these are reversible changes?”
Curriculum Standards1 alignment
Y5.Sci.PCM.5The national curriculum in Englanddemonstrate that dissolving, mixing and changes of state are reversible changes
Prerequisites3
- Changes & Separation VocabularysoftAges 7—9
- Dissolving & SolutionshardAges 9—10
- Heating & Cooling ChangeshardAges 7—9
Show full prerequisite tree
- Changes & Separation Vocabulary soft
Describing dissolving and changes of state as reversible requires the vocabulary from the process terms node
- Changes & Separation Vocabulary hard
Understanding dissolving and solutions requires 'dissolve', 'solution', 'soluble', 'insoluble' from the process vocabulary node
- Advanced Material Properties hard
Must understand solubility as a property before learning dissolving and recovery in detail
- Testing Materials for Uses soft
Within GB sequence, testing advanced properties supports justifying material choices; US teaches material uses earlier without this prerequisite
- Material Properties Vocabulary soft
Giving evidence-based reasons for material uses draws on conductor, insulator, and other property vocabulary
- Material Properties Vocabulary hard
Grouping materials by hardness, solubility, transparency, conductivity, and magnetic response requires all these property terms
- Choosing the Right Material hard
Must understand material suitability before testing advanced properties like conductivity and solubility
- Material Properties Vocabulary soft
Comparing suitability of materials for uses requires property vocabulary to articulate why one material is better than another
- Grouping Materials hard
Must group materials by properties before evaluating suitability for purposes
- States of Matter Vocabulary soft
Describing physical properties of materials uses solid/liquid/gas vocabulary introduced in the states of matter LANGUAGE node
- Solids, Liquids & Gases soft
Understanding states of matter supports testing properties like solubility
- States of Matter Vocabulary hard
Comparing and grouping materials as solids, liquids, or gases requires the naming vocabulary for the three states
- Drawing Particle Diagrams hard
Comparing and grouping solids, liquids, and gases by properties is greatly aided by the particle diagram representation
- Heating & Cooling Changes hard
Must classify states of matter before understanding changes between states
- States of Matter Vocabulary hard
Describing and measuring changes of state requires solid/liquid/gas vocabulary and the term 'change of state'
- Drawing Particle Diagrams hard
Observing and describing change of state requires reading particle diagrams showing how arrangement changes on heating or cooling
- Grouping Materials hard
Must group materials by properties before classifying into three states of matter
- States of Matter Vocabulary soft
Describing physical properties of materials uses solid/liquid/gas vocabulary introduced in the states of matter LANGUAGE node
- Changing Shapes of Solids soft
Changing shapes of solids provides context for understanding solid properties
- Describing Material Properties hard
Must know material properties before investigating how shapes change
- States of Matter Vocabulary soft
Describing physical properties of materials uses solid/liquid/gas vocabulary introduced in the states of matter LANGUAGE node
- Evaporation & the Water Cycle soft
Evaporation knowledge supports understanding recovery of dissolved substances
- Changes & Separation Vocabulary hard
Identifying the role of evaporation and condensation requires knowing these process terms precisely
- Shapes of land and water hard
Must know land and water features before learning where water is found on Earth
- Days, Weeks, Months & Years soft
Observing and describing seasonal changes requires basic date and time vocabulary (months, seasons, year)
- Ordering Events in Time hard
Understanding days/months/years builds on sequencing events chronologically
- Heating & Cooling Changes soft
Understanding state changes supports knowing water as solid (ice) and liquid
- States of Matter Vocabulary hard
Describing and measuring changes of state requires solid/liquid/gas vocabulary and the term 'change of state'
- Drawing Particle Diagrams hard
Observing and describing change of state requires reading particle diagrams showing how arrangement changes on heating or cooling
- Heating & Cooling Changes soft
Water cycle benefits from curriculum states of matter (heating/cooling changes state)
- States of Matter Vocabulary hard
Describing and measuring changes of state requires solid/liquid/gas vocabulary and the term 'change of state'
- Drawing Particle Diagrams hard
Observing and describing change of state requires reading particle diagrams showing how arrangement changes on heating or cooling
- Temperature & Thermometers soft
Water cycle evaporation relates to temperature (heat drives evaporation)
- Heating & Cooling Changes hard
Must understand state changes before learning about evaporation/condensation in water cycle
- States of Matter Vocabulary hard
Describing and measuring changes of state requires solid/liquid/gas vocabulary and the term 'change of state'
- Drawing Particle Diagrams hard
Observing and describing change of state requires reading particle diagrams showing how arrangement changes on heating or cooling
- States of Matter Vocabulary hard
Describing and measuring changes of state requires solid/liquid/gas vocabulary and the term 'change of state'
- Drawing Particle Diagrams hard
Observing and describing change of state requires reading particle diagrams showing how arrangement changes on heating or cooling
Unlocks3
- Physical vs Chemical ChangeshardAges 11—13
- Conservation of MasshardAges 10—11
- Irreversible ChangeshardAges 9—11