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Chemistry
Acids and Bases
  • 27 min
  • 492
Chemistry
Acids and Bases (Principles): Avoid falling in a lake of acid!
  • 30 min
  • 157
Biology
Action Potential Lab: Experiment with a squid neuron
  • 30 min
  • 182
Chemistry
Advanced Acids and Bases
  • 31 min
  • 209
Biology
Animal Genetics
  • 53 min
  • 175
Biology
Antibodies: Why are some blood types incompatible?
  • 34 min
  • 281
Chemistry
Atomic Structure (Principles): Atoms and isotopes
  • 34 min
  • 203
Chemistry
Atomic Structure (Principles): Bohr and Quantum models
  • 29 min
  • 61
Chemistry
Atomic Structure: Assess the possibility of life on other planets
  • 37 min
  • 191
Biology
Bacterial Cell Structures: An introduction to the bacterial cell
  • 35 min
  • 164
Biology
Bacterial Growth Curves: Experiment with bacterial growth
  • 47 min
  • 189
Biology
Bacterial Isolation
  • 42 min
  • 361
Biology
Bacterial Quantification by Culture: Count bacteria with serial dilution
  • 48 min
  • 163
Chemistry
Basic Chemistry Thermodynamics: Solve the challenge of storing renewable energy
  • 38 min
  • 102
Physics
Basic Electricity: Understand how electricity works
  • 15 min
  • 143
Biology
Behavioral Thermoregulation: Help keep a gecksi alive!
  • 34 min
  • 24
Biology
Biodiversity: Assess and compare biodiversity on an exoplanet
  • 30 min
  • 56
Biology
Biological Circuit
  • 48 min
  • 45
Biology
Biomes: Identify and create the main biomes on Earth
  • 30 min
  • 82
Biology
Biosafety
  • 48 min
  • 101
Biology
Cancer Pharmacology: Provide recommendations in a multi-million dollar project
  • 54 min
  • 42
Biology
Cancer Sample Preparation for Mass Spectrometry
  • 33 min
  • 58
Biology
Carbohydrates: The sugars that feed us
  • 32 min
  • 236
Biology
Cardio-respiratory Physiology: How can seals dive so deep for so long?
  • 37 min
  • 44
Biology
Cardiovascular Function During Exercise: Learn how your body responds to exercise
  • 32 min
  • 113
Biology
Cell Culture Basics: Plate, split and freeze human cells
  • 65 min
  • 147
Biology
Cell Division (Principles): Mitosis and Meiosis
  • 34 min
  • 117
Biology
Cell Membrane and Transport: Learn how transporters keep cells healthy
  • 30 min
  • 291
Biology
Cell Structure: Cell theory and internal organelles
  • 30 min
  • 198
Biology
Cellular Respiration (Principles): Measure energy consumption during exercise
  • 31 min
  • 119
Biology
Cellular Respiration: Measuring energy consumption during exercise
  • 39 min
  • 145
Chemistry
Chemistry Safety
  • 29 min
  • 247
Biology
ChIP-exo
  • 49 min
  • 26
Biology
Competition: Learn to identify and quantify competition between species
  • 38 min
  • 32
Engineering
Concrete Materials Testing: Learn the key properties of durable concrete
  • 42 min
  • 85
Biology
Confocal Microscopy
  • 29 min
  • 66
Physics
Conservation of Energy: Improve the Labster Roller Coaster
  • 40 min
  • 92
Biology
Control of Microbial Growth: Explore decontamination and selective toxicity
  • 50 min
  • 79
Biology
CRISPR-Cas applied to TGF-beta induced EMT: Set up protocols in the lab to answer biological questions
  • 51 min
  • 51
Biology
Cytogenetics: Perform a prenatal diagnosis
  • 52 min
  • 36
Medicine
Diabetes
  • 28 min
  • 104
Biology
Ecological Niches: Choose the right Kuppelfang to bring to Earth!
  • 65 min
  • 35
Biology
Ecosystem Dynamics: Assess the effect of fertilizers on the phosphorus cycle
  • 34 min
  • 40
Physics
Electrical Resistance: Apply Ohm’s Law to simple circuits
  • 39 min
  • 97
Physics
Electromagnetic Spectrum (Principles): Discover electromagnetic waves
  • 18 min
  • 84
Biology
Electron Transport Chain: A rollercoaster ride that produces energy
  • 42 min
  • 62
Chemistry
Electrophilic Addition: Explore reactions of hydrocarbons
  • 38 min
  • 85
Chemistry
Elimination Reactions: Use cyclohexanol to create polymers
  • 30 min
  • 48
Biology
ELISA
  • 46 min
  • 128
Biology
Embryology: Discover the genetics of limb development
  • 31 min
  • 47
Biology
Endocrinology: Learn how contraceptives work
  • 32 min
  • 33
Biology
Enzyme Kinetics
  • 54 min
  • 163
Chemistry
Equilibrium
  • 28 min
  • 153
Biology
Eutrophication
  • 29 min
  • 55
Biology
Evolution: Are you related to a sea monster?
  • 28 min
  • 146
Biology
Evolution: Founding theories and principles
  • 30 min
  • 12
Biology
Exercise Physiology
  • 30 min
  • 102
Biology
Experimental Design
  • 46 min
  • 153
Biology
FACS
  • 57 min
  • 46
Biology
Fermentation
  • 48 min
  • 151
Chemistry
Flow Injection Analysis
  • 45 min
  • 40
Biology
Food webs: Learn about interactions between trophic levels
  • 38 min
  • 53
Biology
Foraging: Build a foraging theory to save the crops
  • 30 min
  • 25
Physics
Forces and Free-Body Diagrams: May the forces be with you!
  • 20 min
  • 66
Biology
Gene Expression Unit: Use sequencing to unveil a gene linked to obesity
  • 53 min
  • 72
Biology
Gene Regulation
  • 42 min
  • 75
Biology
Genetic Transfer in Bacteria: Prevent the rise of superbugs!
  • 34 min
  • 57
Biology
Genetically Engineered Machine
  • 48 min
  • 42
Biology
Hematology: Introduction to blood
  • 37 min
  • 81
Anatomy & Phsyiology
Homeostatic Control: How does the human body keep itself in balance?
  • 30 min
  • 40
Biology
Homogenization: Developing better-tasting milk
  • 24 min
  • 23
Chemistry
HPLC
  • 46 min
  • 159
Chemistry
Ideal Gas Law: Build your own temperature scale
  • 33 min
  • 105
Biology
Identification of Unknown Bacteria: Help save baby Kuppelfangs from an epidemic!
  • 38 min
  • 95
Biology
Intestinal Glucose Transport: Study a mouse intestine model to diagnose an infant
  • 42 min
  • 27
Biology
Introduction to Echocardiography: Use different projections to diagnose patients
  • 36 min
  • 12
Biology
Introduction to Food Macromolecules
  • 53 min
  • 189
Biology
Introduction to Immunology: Explore the immune system and save the world!
  • 55 min
  • 102
Biology
Introductory Lab
  • 38 min
  • 154
Biology
Invertebrate Model System: Find the genetic cause of a disease using C. elegans
  • 32 min
  • 23
Chemistry
Ionic and Covalent Bonds
  • 40 min
  • 135
Chemistry
Kjeldahl Method: Estimate the protein content in food
  • 52 min
  • 69
Biology
Lab Safety
  • 22 min
  • 238
Biology
Labster Demo
  • 7 min
  • 156
Biology
Landscape Ecology: Determine persistence in a spatially heterogeneous landscape
  • 30 min
  • 18
Physics
Law of Universal Gravitation: Use gravity to orbit the moon
  • 37 min
  • 48
Physics
Light and Polarization: Learn from Einstein the properties of light
  • 27 min
  • 59
Biology
Marine Biology: Investigate a massive fish death
  • 26 min
  • 76
Physics
Materials Science with Neutrons: Observe what happens inside a battery
  • 30 min
  • 37
Chemistry
Matter and Phase Changes: Distil ethanol
  • 32 min
  • 79
Biology
Medical Genetics
  • 52 min
  • 84
Biology
Meiosis: Understand how traits are inherited
  • 34 min
  • 142
Biology
Mendelian Inheritance: From genes to traits
  • 29 min
  • 106
Biology
Microscopy
  • 51 min
  • 317
Biology
Mitosis: Using a toxic compound from the yew tree in cancer therapy
  • 40 min
  • 95
Biology
Molecular Cloning
  • 54 min
  • 108
Biology
Monogenic Disorders
  • 62 min
  • 30
Biology
Multiplex Automated Genomic Engineering (MAGE): Conjuring massive mutations
  • 38 min
  • 22
Anatomy & Phsyiology
Muscle Tissues: An overview
  • 30 min
  • 64
Physics
Newton’s Laws of Motion: Understanding active and passive safety in motorsports
  • 23 min
  • 114
Biology
Next Generation Sequencing
  • 46 min
  • 61
Chemistry
Nuclear Chemistry: Understand the processes happening in the atomic nucleus
  • 30 min
  • 9
Chemistry
Nuclear Magnetic Resonance (NMR): Analyze small protein samples
  • 44 min
  • 43
Chemistry
Nucleophilic Addition: Explore the Grignard Reaction
  • 52 min
  • 64
Chemistry
Nucleophilic Substitution Reaction: Alkyl halide substrates
  • 48 min
  • 107
Chemistry
Organic Chemistry Introduction: Learn about organic compounds
  • 43 min
  • 123
Chemistry
Organic Chemistry Reactivity Rules: Time to react!
  • 45 min
  • 59
Biology
Parkinson’s Disease
  • 32 min
  • 64
Biology
Pasteurization and Sterilization
  • 42 min
  • 50
Chemistry
Periodic Table (Principles): Get the table organized in time!
  • 42 min
  • 81
Chemistry
Periodic Table of Elements: Get the table organized in time!
  • 36 min
  • 143
Biology
Pigment Extraction: Use photosynthesis to produce biofuel and reduce pollution
  • 39 min
  • 71
Biology
Pipetting: Master the technique
  • 36 min
  • 106
Biology
Plant Transcriptomics
  • 26 min
  • 35
Biology
Polymerase Chain Reaction
  • 37 min
  • 208
Biology
Population Growth: Let’s catch some goslins!
  • 28 min
  • 35
Biology
Protein Denaturation
  • 39 min
  • 65
Biology
Protein Synthesis
  • 45 min
  • 107
Chemistry
Reaction Kinetics: The Essentials
  • 30 min
  • 14
Chemistry
Redox Reactions: Discover how batteries work!
  • 30 min
  • 16
Biology
Regeneration Biology
  • 33 min
  • 67
Biology
Renal Physiology: Find the mode of action of a diuretic drug
  • 38 min
  • 42
Biology
RNA Extraction: Sample and purify mRNA from pigs
  • 30 min
  • 39
Biology
Sensory transduction: Learn why you feel pain when you get hit by a rock
  • 37 min
  • 26
Biology
Signal Transduction: How Cells Communicate
  • 34 min
  • 55
Engineering
Silo Design
  • 30 min
  • 40
Biology
Skeletal Muscle: Learn about the muscles we use to walk and run
  • 51 min
  • 45
Biology
Smooth muscle: Learn how your gut contracts!
  • 58 min
  • 64
Chemistry
Solution Preparation: From salt to solution
  • 22 min
  • 113
Biology
Spatial Ecology: Learn how the environment can influence the distribution of species
  • 27 min
  • 26
Physics
Springs and Masses (Principles): Ideal springtime
  • 30 min
  • 18
Physics
Springs and Masses: Learn how to detect and record earthquakes
  • 33 min
  • 35
Chemistry
Stoichiometric calculations: Identify an unknown compound using gravimetric analysis
  • 36 min
  • 152
Chemistry
Substitution vs. Elimination: Predict the outcome
  • 30 min
  • 80
Biology
Synthetic Biology
  • 62 min
  • 94
Biology
The Gram Stain: Identify and differentiate bacteria
  • 51 min
  • 147
Biology
Thermal Homeostasis: Apply thermoregulation to climate change
  • 41 min
  • 41
Biology
Tissue Engineering
  • 37 min
  • 24
Chemistry
Titration: Neutralize an acid lake contamination
  • 39 min
  • 317
Biology
Trophic Levels: Grazer vs. predator
  • 30 min
  • 56
Biology
Uracil based excision cloning (USER): Cloning made simple
  • 30 min
  • 17
Physics
Vectors and Scalars: Guide two astronauts on a mission to Mars
  • 29 min
  • 52
Biology
Viral Gene Therapy: Use DNA to prevent heart failure
  • 30 min
  • 36
Engineering
Wastewater Treatment
  • 36 min
  • 108
Physics
Wave Model of Light (Principles): Use reflection and refraction to take photos
  • 30 min
  • 40
Biology
Your Diet and Your DNA
  • 35 min
  • 65

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