Explore our rapidly growing catalog

Acids and Bases (Principles)
Acids and Bases (Principles): Avoid falling in a lake of acid!
Acids and Bases
Acids and Bases: Acidity and alkalinity in everyday substances
Action Potential
Action Potential Lab: Experiment with a squid neuron
Advanced Acids and Bases
Advanced Acids and Bases
Animal Genetics
Animal Genetics
Antibodies: Why are some blood types incompatible?
Applications of Buoyancy: Flotation (NEW)
Aseptic Technique: Culture your sample without contamination
Atomic Structure (Principles)
Atomic Structure (Principles): Atoms and isotopes
Atomic Structure (Principles)
Atomic Structure (Principles): Bohr and Quantum models
Atomic Structure
Atomic Structure: Assess the possibility of life on other planets
Bacterial Cell Structures
Bacterial Cell Structures: An introduction to the bacterial cell
 Bacterial Growth Curves
Bacterial Growth Curves: Experiment with bacterial growth
Bacterial Isolation
Bacterial Isolation
Bacterial Quantification by Culture
Bacterial Quantification by Culture: Count bacteria with serial dilution
Bacterial Shapes and Movement
Basic Chemistry Thermodynamic
Basic Chemistry Thermodynamics: Solve the challenge of storing renewable energy
Basic Electricity
Basic Electricity: Understand how electricity works
Behavioral Thermoregulation
Behavioral Thermoregulation: Help keep a gecksi alive!
Benedict’s Test for Simple Carbohydrates
Biodiversity: Assess and compare biodiversity on an exoplanet
Bioinformatics: An introduction
Biomes: Identify and create the main biomes on Earth
Biuret’s Test for Protein
Building Animal Cells
Building Gram Positive and Gram Negative Cell Walls
Calorimetry: Using a bomb calorimeter
Cancer Pharmacology
Cancer Pharmacology: Provide recommendations in a multi-million dollar project
Cancer Sample Preparation for Mass Spectrometry
Cancer Sample Preparation for Mass Spectrometry
Cancer: Impact of BRCA mutations (NEW)
Carbohydrates: The sugars that feed us
Carbon NMR: What is the mystery compound? (NEW)
Carbon Valence, Hybridization and Angles
Cardio-respiratory Physiology
Cardio-respiratory Physiology: How can seals dive so deep for so long?
Cardiovascular Function During Exercise
Cardiovascular Function During Exercise: Learn how your body responds to exercise
Cell Culture Basics
Cell Culture Basics: Plate, split and freeze human cells
Cell Division (Principles)
Cell Division (Principles): Mitosis and Meiosis
Cell Membrane and Transport
Cell Membrane and Transport: Learn how transporters keep cells healthy
Cell Membrane and Transport: Modifying the cell membrane
Cell Membrane and Transport: Types of transporter proteins
Cell Structure
Cell Structure: Cell theory and internal organelles
Cellular Respiration (Principles)
Cellular Respiration (Principles): Measure energy consumption during exercise
Cellular Respiration: Glycolysis
Cellular Respiration
Cellular Respiration: Measuring energy consumption during exercise
Cellular Respiration: Respirometry
Cellular Respiration: The Electron Transport Chain
Cellular Respiration: The Krebs Cycle
Chemical Nomenclature: Learn the importance of inorganic compounds in life! (NEW)
Chemistry Safety
Chemistry Safety
Chemistry Safety: Disposal of Chemical Waste
Chemistry Safety: Hazard Symbols
Comparing Bacterial Structures
Competition: Learn to identify and quantify competition between species
Concrete Materials Testing
Concrete Materials Testing: Learn the key properties of durable concrete
Confocal Microscopy
Confocal Microscopy
Conservation of Energy
Conservation of Energy: Improve the Labster Roller Coaster
Control of Microbial Growth
Control of Microbial Growth: Explore decontamination and selective toxicity
Counting Cells: Control the Epidemic
CRISPR-Cas applied to TGF-beta induced EMT
CRISPR-Cas applied to TGF-beta induced EMT: Set up protocols in the lab to answer biological questions
Cytogenetics: Perform a prenatal diagnosis
 Ecological niches
Ecological Niches: Choose the right Kuppelfang to bring to Earth!
Ecosystem Dynamics
Ecosystem Dynamics: Assess the effect of fertilizers on the phosphorus cycle
Electrical Resistance
Electrical Resistance: Apply Ohm’s Law to simple circuits
Electromagnetic Spectrum (Principles)
Electromagnetic Spectrum (Principles): Discover electromagnetic waves
Electron Transport Chain
Electron Transport Chain: A rollercoaster ride that produces energy
Electrophilic Addition
Electrophilic Addition: Explore reactions of hydrocarbons
Elimination Reactions
Elimination Reactions: Use cyclohexanol to create polymers
Embryology: Discover the genetics of limb development
Endocrinology: Learn how contraceptives work
Energy Surfaces and Spontaneous Reactions
Environmental Impacts of Coal Power Plants
Enzyme Kinetics
Enzyme Kinetics
Evolution: Are you related to a sea monster?
Evolution: Founding theories and principles
Evolution: Generations of an allele
Evolution: Identifying a deep sea creature
Evolution: Journey of the canids
Evolution: Taxonomic tree of life
Exercise Physiology
Exercise Physiology
Experimental Design
Experimental Design
Explore a Distillation Apparatus
Exploring Human Reproductive Cells
Fermentation: Optimize bio-ethanol production
Flow Injection Analysis
Flow Injection Analysis
Fluorescence Microscopy
Food webs
Food webs: Learn about interactions between trophic levels
Foraging: Build a foraging theory to save the crops
Forces and Free-Body Diagrams
Forces and Free-Body Diagrams: May the forces be with you!
From Algae to Bioenergy
Functional Groups and Basic Chemical Tests
Gel Electrophoresis: Visualize and separate nucleic acids
Gene Expression Unit
Gene Expression Unit: Use sequencing to unveil a gene linked to obesity
Gene linkage and pedigree analyses (NEW)
Gene Regulation
Gene Regulation
Genetic Transfer in Bacteria
Genetic Transfer in Bacteria: Prevent the rise of superbugs!
Genetically Engineered Machine
Genetically Engineered Machine
Gram Stain: How stains and counterstains work
Gram Stain: Test yourself in Gram Stain Procedure
Heating Curves and Phase Changes: Distil Ethanol
Hematology: Introduction to blood
Homeostatic Control
Homeostatic Control: How does the human body keep itself in balance?
Homogenization: Developing better-tasting milk
Homogenization: Developing better-tasting milk
Hydrocarbon Nomenclature and Representations
Ideal Gas Law: Apply the principles to save a life
Ideal Gas Law
Ideal Gas Law: Build your own temperature scale
Ideal Gas Law: Introduction
Identification of Unknown Bacteria
Identification of Unknown Bacteria: Help save baby Kuppelfangs from an epidemic!
Immunology: Immunoassay for detecting SARS-CoV-2 antibodies (NEW)
Inheritance with Pedigrees
Inheritance with Punnett Squares
Intestinal Glucose Transport
Intestinal Glucose Transport: Study a mouse intestine model to diagnose an infant
Introduction to Echocardiography
Introduction to Echocardiography: Use different projections to diagnose patients
Introduction to Food Macromolecules
Introduction to Food Macromolecules
Introduction to Groups of the Periodic Table
Introduction to Immunology
Introduction to Immunology: Explore the immune system and save the world!
Introduction to Immunology: Organs and cells of immune system (NEW)
Introduction to Protein Synthesis
Introduction to Qualitative Analysis of Elements
Introduction to Radioactive Decay (NEW)
Introductory Lab
Introductory Lab
Invertebrate Model System
Invertebrate Model System: Find the genetic cause of a disease using C. elegans
Iodine Test for Complex Carbohydrates
Ion Exchange Chromatography (NEW)
Ionic and Covalent Bonds
Ionic and Covalent Bonds
Kjeldahl Method
Kjeldahl Method: Estimate the protein content in food
Lab Safety
Lab Safety
Labster Demo
Labster Demo
Landscape Ecology
Landscape Ecology: Determine persistence in a spatially heterogeneous landscape
Law of Universal Gravitation
Law of Universal Gravitation: Use gravity to orbit the moon
Light and Polarization
Light and Polarization: Learn from Einstein the properties of light
Light Microscopy
Liquid-Liquid Extraction: Extract caffeine from your everyday drinks
MALDI Investigation into Doping
Marine Biology
Marine Biology: Investigate a massive fish death
Materials Science with Neutrons
Materials Science with Neutrons: Observe what happens inside a battery
Matter and Phase Changes
Matter and Phase Changes: Distil ethanol
Medical Genetics
Medical Genetics
Meiosis, Mitosis and Plant Gametes
Meiosis: How is color blindness inherited?
Meiosis: Understand how traits are inherited
Mendelian Inheritance
Mendelian Inheritance: From genes to traits
Mitosis: Using a toxic compound from the yew tree in cancer therapy
Molecular Cloning
Molecular Cloning
Monogenic Disorders
Monogenic Disorders
Multiplex Automated Genomic Engineering (MAGE): Conjuring massive mutations
Muscle Tissues: An overview
Muscle Tissues: An overview
Newton’s Laws of Motion
Newton’s Laws of Motion: Understanding active and passive safety in motorsports
Next Generation Sequencing
Next Generation Sequencing
Nuclear Chemistry: Understand the processes happening in the atomic nucleus
Nuclear Magnetic Resonance
Nuclear Magnetic Resonance (NMR): Analyze small protein samples
Nucleophilic Addition
Nucleophilic Addition: Explore the Grignard Reaction
Nucleophilic Substitution Reaction
Nucleophilic Substitution Reaction: Alkyl halide substrates
Organic Chemistry Introduction
Organic Chemistry Introduction: Learn about organic compounds
Organic Chemistry Reactivity Rules
Organic Chemistry Reactivity Rules: Time to react!
Osmosis: Choose the right solution for an intravenous drip
Parkinson's Disease
Parkinson’s Disease
Pasteurization and Sterilization
Pasteurization and Sterilization
Perform a Dry Western Blot
Periodic Table (Principles)
Periodic Table (Principles): Get the table organized in time!
Periodic Table of Elements
Periodic Table of Elements: Get the table organized in time!
Photosynthesis: Algae pigment analysis
Photosynthesis: Electron transport chain
Pigment Extraction
Pigment Extraction: Use photosynthesis to produce biofuel and reduce pollution
Pipetting: Master the technique
Pipetting: Selecting and Using Micropipettes
Plant Transcriptomics
Plant Transcriptomics (outdated)
Polymerase Chain Reaction
Polymerase Chain Reaction
Population Growth
Population Growth: Let’s catch some goslins!
Principles of the Water Cycle (NEW)
Properties of Water (NEW)
Protein Denaturation
Protein Denaturation
Protein Synthesis
Protein Synthesis
Proton NMR: Spectrum interpretation
Reaction Kinetics: The Essentials
Recrystallization: Dissolve your solid and precipitate your crystals
Recrystallization: Filter your crystals and measure the melting point
Recrystallization: Purify your solid
Redox Reactions: Discover how batteries work!
Regeneration Biology
Regeneration Biology
Renal Physiology
Renal Physiology: Find the mode of action of a diuretic drug
RNA Extraction
RNA Extraction: Sample and purify mRNA from pigs
Sensory transduction
Sensory transduction: Learn why you feel pain when you get hit by a rock
Separating Mixtures: Using distillation to concentrate ethanol
Signal Transduction: Choose the best cancer inhibitor
Signal Transduction
Signal Transduction: How cells communicate
Silo Design
Silo Design
Simple Distillation: Recycle waste from biodiesel production
Size Exclusion Chromatography: Separate monomers from oligomers (NEW)
Skeletal Muscle
Skeletal Muscle: Learn about the muscles we use to walk and run
Smooth muscle
Smooth muscle: Learn how your gut contracts!
Solution Preparation
Solution Preparation: From salt to solution
Spatial Ecology
Spatial Ecology: Learn how the environment can influence the distribution of species
Spectrophotometers: Building and exploring the instrument
Spectrophotometry: Learn the Beer-Lambert law with absorbance experiments
Springs and Masses (Principles)
Springs and Masses (Principles): Ideal springtime
Springs and Masses
Springs and Masses: Learn how to detect and record earthquakes
States of Matter
Stereochemistry: From stereocenters to E/Z isomers
Stoichiometric calculations
Stoichiometric calculations: Identify an unknown compound using gravimetric analysis
Stoichiometry: Avogadro’s number and molecular calculations
Stoichiometry: Gravimetric Analysis
Substitution vs. Elimination
Substitution vs. Elimination: Predict the outcome
Sudan IV Test for Lipids
Synthesis of Aspirin: How to fight students’ migraines (NEW)
Synthetic Biology
Synthetic Biology
The Carbon Cycle: Reduce carbon emissions
The Gram Stain
The Gram Stain: Identify and differentiate bacteria
The Nitrogen Cycle: Balance food demands and environmental concerns (NEW)
The Scientific Method
Thermal Effects on Marine Oxygen Levels
Thermal Homeostasis
Thermal Homeostasis: Apply thermoregulation to climate change
Thin Layer Chromatography: Separate a mixture and monitor the progress of a reaction
Tissue Engineering
Tissue Engineering
Titration: Neutralize an acid lake contamination
Treatment for Chronic Kidney Disease
Trophic Levels
Trophic Levels: Grazer vs. predator
Uracil based excision cloning (USER): Cloning made simple
Vectors and Scalars simulation
Vectors and Scalars: Guide two astronauts on a mission to Mars
Viral Gene Therapy
Viral Gene Therapy: Use DNA to prevent heart failure
Wastewater Treatment
Wastewater Treatment
Wave Model of Light (Principles)
Wave Model of Light (Principles): Use reflection and refraction to take photos
Western Blot Transfer: Prepare for protein detection
Your Diet and Your DNA
Your Diet and Your DNA

Take a 15 Minute “Lab Break” with a Virtual Lab Expert

Talk to one of our Virtual Lab Experts about how Labster can engage your students with our virtual labs for online, hybrid and face-to-face courses.

Lab break coffee with us

Please fill out the form below to talk with one of our Lab Experts. 

You must opt in to receive emails from Labster. You can unsubscribe at any time.
Thank you for your submission!

Sales Demo: Discover how Labster
improves student grades and learning outcomes!

Limited to 100 people

The simulation is already added to this package

Step 1: Choose your simulations

Find and select the simulations that you want to add to your course.

Step 2: Review simulation list

This is the list of simulations that will be added to your course. Click Download once you are ready.

Press the + button next to the simulations that you want to add to your list, or add all the simulations of this package by pressing “add all simulations”.


Related Simulations

No simulations added yet.
    Download the .zip file and upload it to your LMS.

    Download Common Cartridge File

    Choose your Learning Management System below:
    Generating download link. Please wait...
    Congratulations! You can now upload the .zip file into your LMS by the following these instructions:

    Simulation name

    Image container

    Learning Outcomes

    Learning outcomes container


    Techniques container

    Simulation Description

    Description container

    Are you sure you want to delete?

    Package deleted successfully

    IMPORTANT: Check the original email with instructions from your instructor to verify how you should gain access.

    Labster Website

    Did you receive a link or email invitation to access Labster via the Labster website? You will be using Labster Direct (URL) or our Course Manager login. Check with your instructor or read more below.

    School LMS

    Are you accessing Labster from your school’s LMS, such as Canvas, Blackboard, Moodle or Brightspace? Click below to read more. 

    IMPORTANT: Please check your original email to confirm the correct access option.

    Labster Website

    Are you accessing Labster through Labster Direct or the new Course Manager account login? Learn more below.

    Your LMS

    Are you accessing Labster from your school’s LMS, such as Canvas, Blackboard, Moodle or Brightspace? Click below to read more.

    Faculty Resources

    To access the Faculty Resources page (instructors only) and review Labster simulations, please log in below.