Comparing Samples

Science

Year 8

Above satisfactory

Expansion in gases

1 Annotation 1
Uses understanding of molecular kinetic theory to explain why gases expand and names relevant scientific law 2 Annotation 2
Considers ethical and safety concerns 3 Annotation 3
Identifies independent and dependent variables and describes in detail how they are measured 4 Annotation 4
Identifies variables that need to be controlled and demonstrates understanding of molecular kinetic theory by including number of molecules 5 Annotation 5
Uses reasoning based on molecular kinetic theory to support hypothesis

  • Annotations

  • 1
    Annotation 1
    Uses understanding of molecular kinetic theory to explain why gases expand and names relevant scientific law
  • 2
    Annotation 2
    Considers ethical and safety concerns
  • 3
    Annotation 3
    Identifies independent and dependent variables and describes in detail how they are measured
  • 4
    Annotation 4
    Identifies variables that need to be controlled and demonstrates understanding of molecular kinetic theory by including number of molecules
  • 5
    Annotation 5
    Uses reasoning based on molecular kinetic theory to support hypothesis
1 Annotation 1
Describes experimental procedure using clear step-by-step instructions 2 Annotation 2
Creates annotated diagram to illustrate experimental setup

  • Annotations

  • 1
    Annotation 1
    Describes experimental procedure using clear step-by-step instructions
  • 2
    Annotation 2
    Creates annotated diagram to illustrate experimental setup
1 Annotation 1
Displays results in table 2 Annotation 2
Creates column graph with appropriate axis titles and legend to display results

  • Annotations

  • 1
    Annotation 1
    Displays results in table
  • 2
    Annotation 2
    Creates column graph with appropriate axis titles and legend to display results
1 Annotation 1
Refers to evidence to support conclusion 2 Annotation 2
Suggests improvements to experimental method 3 Annotation 3
Reflects on learning and applies it to describe real-life situation 4 Annotation 4
States relevant scientific law 5 Annotation 5
Uses molecular kinetic theory to explain results

  • Annotations

  • 1
    Annotation 1
    Refers to evidence to support conclusion
  • 2
    Annotation 2
    Suggests improvements to experimental method
  • 3
    Annotation 3
    Reflects on learning and applies it to describe real-life situation
  • 4
    Annotation 4
    States relevant scientific law
  • 5
    Annotation 5
    Uses molecular kinetic theory to explain results
1 Annotation 1
Attempts to demonstrate Charles’s Law using correct mathematical approach

  • Annotations

  • 1
    Annotation 1
    Attempts to demonstrate Charles’s Law using correct mathematical approach
1 Annotation 1
Identifies and formulates investigable question 2 Annotation 2
Researches relationship between temperature and volume and records key information including relevant scientific law 3 Annotation 3
Analyses potential ethical and safety concerns

  • Annotations

  • 1
    Annotation 1
    Identifies and formulates investigable question
  • 2
    Annotation 2
    Researches relationship between temperature and volume and records key information including relevant scientific law
  • 3
    Annotation 3
    Analyses potential ethical and safety concerns
1 Annotation 1
Considers variables relevant to investigation 2 Annotation 2
Identifies independent variable and plans way to change it 3 Annotation 3
Identifies dependent variable and plans way to measure it 4 Annotation 4
Identifies key variable to be kept constant

  • Annotations

  • 1
    Annotation 1
    Considers variables relevant to investigation
  • 2
    Annotation 2
    Identifies independent variable and plans way to change it
  • 3
    Annotation 3
    Identifies dependent variable and plans way to measure it
  • 4
    Annotation 4
    Identifies key variable to be kept constant
1 Annotation 1
Uses scientific reasoning based on molecular kinetic theory to develop hypothesis 2 Annotation 2
Formulates aim and predicts outcome of investigation

  • Annotations

  • 1
    Annotation 1
    Uses scientific reasoning based on molecular kinetic theory to develop hypothesis
  • 2
    Annotation 2
    Formulates aim and predicts outcome of investigation
1 Annotation 1
Considers possible external influences on fairness of test 2 Annotation 2
Describes in detail experimental challenges and how they have been solved

  • Annotations

  • 1
    Annotation 1
    Considers possible external influences on fairness of test
  • 2
    Annotation 2
    Describes in detail experimental challenges and how they have been solved

Satisfactory

Expansion in gases

1 Annotation 1
States key assumptions underlying the particle model of matter and lists key properties of gases

  • Annotations

  • 1
    Annotation 1
    States key assumptions underlying the particle model of matter and lists key properties of gases
1 Annotation 1
Uses understanding of molecular kinetic theory to explain why gases expand and contract

  • Annotations

  • 1
    Annotation 1
    Uses understanding of molecular kinetic theory to explain why gases expand and contract
1 Annotation 1
Identifies independent and dependent variables and describes how they are measured 2 Annotation 2
Attempts to identify controlled variables

  • Annotations

  • 1
    Annotation 1
    Identifies independent and dependent variables and describes how they are measured
  • 2
    Annotation 2
    Attempts to identify controlled variables
1 Annotation 1
Considers safety concerns

  • Annotations

  • 1
    Annotation 1
    Considers safety concerns
1 Annotation 1
Describes experimental procedure using clear step-by-step instructions

  • Annotations

  • 1
    Annotation 1
    Describes experimental procedure using clear step-by-step instructions
1 Annotation 1
Creates annotated diagram to illustrate experimental setup

  • Annotations

  • 1
    Annotation 1
    Creates annotated diagram to illustrate experimental setup
1 Annotation 1
Displays results in table

  • Annotations

  • 1
    Annotation 1
    Displays results in table
1 Annotation 1
Summarises findings and states conclusion

  • Annotations

  • 1
    Annotation 1
    Summarises findings and states conclusion
1 Annotation 1
States real-life situation related to expansion of materials 2 Annotation 2
States experimental challenge and suggests improvement to method

  • Annotations

  • 1
    Annotation 1
    States real-life situation related to expansion of materials
  • 2
    Annotation 2
    States experimental challenge and suggests improvement to method

Above satisfactory

Expansion in gases

1 Annotation 1
Uses understanding of molecular kinetic theory to explain why gases expand and names relevant scientific law 2 Annotation 2
Considers ethical and safety concerns 3 Annotation 3
Identifies independent and dependent variables and describes in detail how they are measured 4 Annotation 4
Identifies variables that need to be controlled and demonstrates understanding of molecular kinetic theory by including number of molecules 5 Annotation 5
Uses reasoning based on molecular kinetic theory to support hypothesis

  • Annotations

  • 1
    Annotation 1
    Uses understanding of molecular kinetic theory to explain why gases expand and names relevant scientific law
  • 2
    Annotation 2
    Considers ethical and safety concerns
  • 3
    Annotation 3
    Identifies independent and dependent variables and describes in detail how they are measured
  • 4
    Annotation 4
    Identifies variables that need to be controlled and demonstrates understanding of molecular kinetic theory by including number of molecules
  • 5
    Annotation 5
    Uses reasoning based on molecular kinetic theory to support hypothesis
1 Annotation 1
Describes experimental procedure using clear step-by-step instructions 2 Annotation 2
Creates annotated diagram to illustrate experimental setup

  • Annotations

  • 1
    Annotation 1
    Describes experimental procedure using clear step-by-step instructions
  • 2
    Annotation 2
    Creates annotated diagram to illustrate experimental setup
1 Annotation 1
Displays results in table 2 Annotation 2
Creates column graph with appropriate axis titles and legend to display results

  • Annotations

  • 1
    Annotation 1
    Displays results in table
  • 2
    Annotation 2
    Creates column graph with appropriate axis titles and legend to display results
1 Annotation 1
Refers to evidence to support conclusion 2 Annotation 2
Suggests improvements to experimental method 3 Annotation 3
Reflects on learning and applies it to describe real-life situation 4 Annotation 4
States relevant scientific law 5 Annotation 5
Uses molecular kinetic theory to explain results

  • Annotations

  • 1
    Annotation 1
    Refers to evidence to support conclusion
  • 2
    Annotation 2
    Suggests improvements to experimental method
  • 3
    Annotation 3
    Reflects on learning and applies it to describe real-life situation
  • 4
    Annotation 4
    States relevant scientific law
  • 5
    Annotation 5
    Uses molecular kinetic theory to explain results
1 Annotation 1
Attempts to demonstrate Charles’s Law using correct mathematical approach

  • Annotations

  • 1
    Annotation 1
    Attempts to demonstrate Charles’s Law using correct mathematical approach
1 Annotation 1
Identifies and formulates investigable question 2 Annotation 2
Researches relationship between temperature and volume and records key information including relevant scientific law 3 Annotation 3
Analyses potential ethical and safety concerns

  • Annotations

  • 1
    Annotation 1
    Identifies and formulates investigable question
  • 2
    Annotation 2
    Researches relationship between temperature and volume and records key information including relevant scientific law
  • 3
    Annotation 3
    Analyses potential ethical and safety concerns
1 Annotation 1
Considers variables relevant to investigation 2 Annotation 2
Identifies independent variable and plans way to change it 3 Annotation 3
Identifies dependent variable and plans way to measure it 4 Annotation 4
Identifies key variable to be kept constant

  • Annotations

  • 1
    Annotation 1
    Considers variables relevant to investigation
  • 2
    Annotation 2
    Identifies independent variable and plans way to change it
  • 3
    Annotation 3
    Identifies dependent variable and plans way to measure it
  • 4
    Annotation 4
    Identifies key variable to be kept constant
1 Annotation 1
Uses scientific reasoning based on molecular kinetic theory to develop hypothesis 2 Annotation 2
Formulates aim and predicts outcome of investigation

  • Annotations

  • 1
    Annotation 1
    Uses scientific reasoning based on molecular kinetic theory to develop hypothesis
  • 2
    Annotation 2
    Formulates aim and predicts outcome of investigation
1 Annotation 1
Considers possible external influences on fairness of test 2 Annotation 2
Describes in detail experimental challenges and how they have been solved

  • Annotations

  • 1
    Annotation 1
    Considers possible external influences on fairness of test
  • 2
    Annotation 2
    Describes in detail experimental challenges and how they have been solved