High School

Welcome to Labster High School

Here you can access our many engaging and interactive 3D learning simulations, covering all the most important science topics in your course. 
Just select a topic below, and click play to start learning in a fun and engaging way.

Animal Genetics

Antibodies: Why are some blood types incompatible?

Bacterial Isolation

Biomes: Identify and create the main biomes on Earth

Carbohydrates: The sugars that feed us

Cell Division (Principles): Mitosis and Meiosis

Cell Membrane and Transport: Learn how transporters keep cells healthy

Cell Structure: Cell theory and internal organelles

Cellular Respiration (Principles): Measure energy consumption during exercise

Competition: Learn to identify and quantify competition between species

Ecosystem Dynamics: Assess the effect of fertilizers on the phosphorus cycle

Electron Transport Chain: A rollercoaster ride that produces energy

Embryology: Discover the genetics of limb development

Evolution: Are you related to a sea monster?

Evolution: Founding theories and principles

Experimental Design

Gene Expression Unit: Use sequencing to unveil a gene linked to obesity

Introduction to Food Macromolecules

Introductory Lab

Lab Safety

Marine Biology: Investigate a massive fish death

Meiosis: Understand how traits are inherited

Mendelian Inheritance: From genes to traits

Microscopy

Mitosis: Using a toxic compound from the yew tree in cancer therapy

Pigment Extraction: Use photosynthesis to produce biofuel and reduce pollution

Pipetting: Master the technique

Protein Synthesis

Signal Transduction: How Cells Communicate

Spatial Ecology: Learn how the environment can influence the distribution of species

Trophic Levels: Grazer vs. predator

Acids and Bases (Principles): Avoid falling in a lake of acid!

Advanced Acids and Bases

Atomic Structure (Principles): Atoms and isotopes

Atomic Structure (Principles): Bohr and Quantum models

Chemistry Safety

Equilibrium

Flow Injection Analysis

HPLC

Ideal Gas Law: Build your own temperature scale

Ionic and Covalent Bonds

Kjeldahl Method: Estimate the protein content in food

Lab Safety

Matter and Phase Changes: Distil ethanol

Nuclear Chemistry: Understand the processes happening in the atomic nucleus

Organic Chemistry Introduction: Learn about organic compounds

Organic Chemistry Reactivity Rules: Time to react!

Periodic Table (Principles): Get the table organized in time!

Reaction Kinetics: The Essentials

Redox Reactions: Discover how batteries work!

Solution Preparation: From salt to solution

Stoichiometric calculations: Identify an unknown compound using gravimetric analysis

Titration: Neutralize an acid lake contamination

Basic Electricity: Understand how electricity works

Conservation of Energy: Improve the Labster Roller Coaster

Electrical Resistance: Apply Ohm’s Law to simple circuits

Electromagnetic Spectrum (Principles): Discover electromagnetic waves

Forces and Free-Body Diagrams: May the forces be with you!

Law of Universal Gravitation: Use gravity to orbit the moon

Newton’s Laws of Motion: Understanding active and passive safety in motorsports

Springs and Masses (Principles): Ideal springtime

Vectors and Scalars: Guide two astronauts on a mission to Mars

Wave Model of Light (Principles): Use reflection and refraction to take photos

Acids and Bases

Action Potential Lab: Experiment with a squid neuron

Atomic Structure: Assess the possibility of life on other planets

Bacterial Cell Structures: An introduction to the bacterial cell

Bacterial Growth Curves: Experiment with bacterial growth

Bacterial Quantification by Culture: Count bacteria with serial dilution

Basic Chemistry Thermodynamics: Solve the challenge of storing renewable energy

Behavioral Thermoregulation: Help keep a gecksi alive!

Biodiversity: Assess and compare biodiversity on an exoplanet

Biosafety

Cancer Pharmacology: Provide recommendations in a multi-million dollar project

Cancer Sample Preparation for Mass Spectrometry

Cardio-respiratory Physiology: How can seals dive so deep for so long?

Cardiovascular Function During Exercise: Learn how your body responds to exercise

Cell Culture Basics: Plate, split and freeze human cells

Cellular Respiration: Measuring energy consumption during exercise

ChIP-exo

Concrete Materials Testing: Learn the key properties of durable concrete

Confocal Microscopy

Control of Microbial Growth: Explore decontamination and selective toxicity

CRISPR-Cas applied to TGF-beta induced EMT: Set up protocols in the lab to answer biological questions

Cytogenetics: Perform a prenatal diagnosis

Diabetes

Ecological Niches: Choose the right Kuppelfang to bring to Earth!

Electrophilic Addition: Explore reactions of hydrocarbons

Elimination Reactions: Use cyclohexanol to create polymers

ELISA

Endocrinology: Learn how contraceptives work

Enzyme Kinetics

Eutrophication

Exercise Physiology

FACS

Fermentation

Food webs: Learn about interactions between trophic levels

Foraging: Build a foraging theory to save the crops

Gene Regulation

Genetic Transfer in Bacteria: Prevent the rise of superbugs!

Genetically Engineered Machine

Hematology: Introduction to blood

Homeostatic Control: How does the human body keep itself in balance?

Homogenization: Developing better-tasting milk

Identification of Unknown Bacteria: Help save baby Kuppelfangs from an epidemic!

Intestinal Glucose Transport: Study a mouse intestine model to diagnose an infant

Introduction to Echocardiography: Use different projections to diagnose patients

Introduction to Immunology: Explore the immune system and save the world!

Invertebrate Model System: Find the genetic cause of a disease using C. elegans

Labster Demo

Landscape Ecology: Determine persistence in a spatially heterogeneous landscape