F-2 Grouping Living Things Based on Observable Features
Plants and animals have observable features that can be used to group them in different ways.
VC2S2U01
Identifying Plant Parts in Fruits and Vegetables
Classifying Animals as Vertebrates or Invertebrates
Recognising Humans as Animals and Comparing Features
Observing External Features with Tools
Sorting and Grouping Model Animals
Exploring Aboriginal and Torres Strait Islander Representations of Living Things
F-2 Meeting the Basic Needs of Living Things
Plants and animals have basic needs, including air, water, food and shelter; the places where they live meet those needs.
VC2S2U02
Identifying Habitats
Caring for Living Things at Home
Comparing Needs of Living Things
Creating Habitat Dioramas
Caring for Country and Place
Importance of Caring for Plants and Animals
F-2 External Features and Their Functions in Plant and Animal Survival
Plants and animals have external features that perform different functions to enable their survival; in plants these features include roots, stems, leaves, flowers, fruit, bulbs, trunks and branches while different features in animals enable them to move, breathe, eat and respond to their environment.
VC2S2U03
Comparing Plant Structures
Investigating Water Movement in Plants
Understanding Sensory Organs
Exploring Teeth and Diets
Cultural Representations of Animal Movement
Grouping Animals by External Features
3-4 Distinguishing Living, Once-Living and Non-Living Things
Living things have characteristics that distinguish them from non-living things and things that were once living, including fossils.
VC2S4U01
Classifying Living Status
Making Fossil Impressions
Exploring Differences
3-4 Understanding Life Cycles and Heredity
Plants and animals have different life cycles; offspring are similar, but not identical, to their parents.
VC2S4U02
Metamorphic vs. Non-Metamorphic Life Cycles
Life Stage Comparisons
Life Cycle Representations
Offspring Variation
Cultural Knowledge of Life Cycles
3-4 Roles and Relationships in Habitats
Consumers, producers and decomposers have different roles and interactions within a habitat; food chains can be used to represent feeding relationships.
VC2S4U03
Obtaining Food
Identifying Roles in Habitats
Understanding Decomposers
Food Chains
Impact of Introduced Predators
Effects of Food Source Removal
5-6 The Influence of Physical Conditions on Habitats and Organism Survival
Habitats can be described by their physical conditions; changing the physical conditions of a habitat, including by human activity, may affect the growth and survival of organisms.
VC2S6U01
Identifying Physical Conditions
Effects on Plant Growth
Effects on Animal Survival
Aboriginal and Torres Strait Islander Knowledge
Human Impact on Habitats
Experimental Investigation
Environmental Conditions and Life Stages
5-6 Evolution and Adaptation in Living Organisms
Organisms have evolved over time, as seen in fossils and scientific records; the structural features and behaviours of living organisms enable them to thrive in their environments.
VC2S6U02
Adaptations for Survival
Surviving in Harsh Environments
Comparing Adaptations
The Role of Camouflage
Adaptation Simulations
Evolution Through Variation
Aboriginal and Torres Strait Islander Knowledges and Biomimicry
7-8 Understanding the Diversity of Life through Classification
There are similarities and differences within and between groups of organisms living on Earth; the development and use of classification tools, including dichotomous keys, help order and organise human understanding of the diversity of life.
VC2S8U01
Reasons for Classifying Organisms
Comparing Life Processes Across Organisms
Using Dichotomous Keys in the Field
Creating and Modifying Classification Tools
Scientific Naming with the Linnaean System
Indigenous Classification Systems
Evolving Biological Classification
7-8 Understanding Cells: The Building Blocks of Life
Cell theory describes cells as the basic units of life; organisms may be unicellular or multicellular and have specialised structures and organelles (including cell walls, cell membranes, cytoplasm, nuclei containing DNA, mitochondria, ribosomes, chloroplasts and vacuoles) that perform specific functions.
VC2S8U02
Exploring Cells in Virtual Environments
Microscopy in Cell Studies
Comparing Prepared and Student-Made Slides
Identifying Cellular Similarities and Differences
Creating and Evaluating Cell Models
Investigating Cell Functions and Processes
Technology and the Advancement of Cell Biology
7-8 Structure and Function of Plant and Animal Organ Systems
The structure of cells, tissues and organs in a plant and an animal organ system are related to their function; plant and animal organ systems enable survival of the organism.
VC2S8U03
Comparing Plant and Animal Systems
Specialised Cells and Tissues
Structure and Function of Organs
Disorders of Cells and Tissues
Ethical Issues in Organ Transplantation
Artificial Organs
Loss of Non-Vital Organs
7-8 Matter and Energy Flow in Ecosystems
Matter and energy flow through ecosystems and can be represented using models, including food webs and food pyramids; populations will be affected by changing biotic and abiotic factors in an ecosystem including habitat loss, climate change, seasonal migration and introduction or removal of species.
VC2S8U04
Feeding Relationships and Microorganisms
Energy Transfer in Trophic Levels
Impact of Species Removal
Environmental Changes and Population Shifts
Indigenous Knowledge on Invasive Species Management
Cultural Burning and Ecosystem Transformation
9-10 Reproduction and Survival in Plants and Animals
The structures of reproductive cells and organs in plants and animals are related to their functions; processes of sexual and asexual reproduction enable survival of a species.
VC2S10U01
Male and Female Reproductive Systems
Structure and Function of Gametes
Reproductive Strategies in Plants
Variation Through Reproduction
Animal Reproduction and Environment
Offspring Numbers and Parental Care
9-10 Regulating and Coordinating Body Responses: The Nervous and Endocrine Systems
The nervous and endocrine systems work together to regulate and coordinate the body’s response to stimuli, ensuring homeostasis, including through negative feedback mechanisms.
VC2S10U02
Observable Responses to Stimuli
Systems Coordination Through Models and Simulations
Comparing Nervous and Hormonal Responses
Modelling the Regulatory Pathway
Negative Feedback and Applications
Disruptions to Feedback Systems
9-10 Causes, Impacts and Control of Infectious and Non-Infectious Diseases
Infectious and non-infectious diseases are caused by different organisms and agents; measures to control the transmission of infectious diseases include personal hygiene, quarantine protocols, medical treatment and public education programs.
VC2S10U03
Distinguishing Disease Types
Investigating Hygiene Practices
Visualising Disease Mechanisms
Evaluating Disease Control Strategies
Identifying Causes of Non-Infectious Disease
Examining Historical Disease Impact
Promoting Disease Prevention
9-10 Genetic Inheritance and the Transmission of Traits
Genetic inheritance involves the function of DNA, chromosomes, genes and alleles, and the roles of mitosis and meiosis in passing on genetic information to the next generation; the principles of Mendelian inheritance can be used to predict ratios of genotypes and phenotypes in monohybrid crosses involving dominant and recessive traits.
VC2S10U04
Representing the Genetic Blueprint
Genetic Variation Through Meiosis and Fertilisation
Predicting Outcomes Using Mendelian Inheritance
Tracing Traits Through Generations
Genetic Mutations and Disorders
9-10 Evolution by Natural Selection and Biodiversity
The theory of evolution by natural selection includes the processes of variation, isolation and adaptation and is supported by evidence including the fossil record, biogeography and comparative embryology; the theory explains past and present biodiversity and demonstrates how all organisms have some degree of relatedness to each other.
VC2S10U05
Processes of Natural Selection
Biodiversity as an Outcome of Evolution
Evidence Supporting Evolution
Selection Pressures and Population Change
Genetics and Survival
Adaptations of First Nations Peoples
Causes of Megafaunal Extinction