Experimental Design & Scientific Investigation

Discover the structure and function of cell membranes using the fluid mosaic model. Apply your learning to improve the health of synthetic cells that the lead researcher wants to use to produce insulin.

Discover the structure and function of cell membranes by launching cargo molecules at a virtual cell. Apply your learning back in the lab to improve the health of synthetic cells that the lead researcher wants to use to produce insulin.

Join Marie in the Acids and Bases Simulation and explore the nature and concepts of these important chemical compounds. Measure the pH of chemical solutions, and use your acquired knowledge to evaluate mixtures of acids and base.

Travel to the exoplanet Astakos IV and use ecological methods to assess and compare biodiversity over time and between different sites.

Master the art of balancing polyatomic ion equations in our practice simulation! Join a captivating mission where you'll unravel the secrets of chemical harmony.

Join Dr. One at the lake and learn what it takes to make an object float or sink. Find out how the density of a liquid does significantly impact the buoyancy of an object and how much of a floating object is submerged below the surface.

Learn the core concepts of thermodynamics and discover how chemical reactions can be represented with energy surfaces. Determine which chemical reactions are spontaneous.

Learn how to detect the hallmarks of EMT using immunofluorescence and knock out the correct gene to revert the process using CRISPR

Investigate Alcohol Flush Syndrome by studying Alcohol Dehydrogenase kinetics. Learn how to use a spectrophotometer, perform an enzyme kinetics experiment, analyze data and understand different inhibition mechanisms.

Learn about equlibrium and help a famous scientist to prevent a global famine by applying your knowledge to increase the yields of fertilizer for the crops.

Help Roxy figure out if a mysterious dark algae is able to do photosynthesis using green light and measure this process with the Hill reaction.

Work as a pharmaceutical detective to identify the link between a new drug and a recent epidemic. Use the scientific method to design an experiment and perform a fluorescent cell assay to test your hypothesis.

Join an iGEM team to design a biosensor that can sense biofilm forming bacteria.

Take advantage of the recent exciting research findings in the field, and try to develop a potential cure for heart failure. Will you be able to design a virus to help revert heart failure in patients?

Visit the exoplanet Astakos IV, where the Kuppelfang population is suffering from a bacterial infection. Use staining, differential media and biochemical tests to identify the bacteria so that the Kuppelfangs can be treated before they go extinct.

Take a scientific approach to the classic task of guessing how many candies are in a jar. Rather than random guesses, utilize good experimental design to select the correct measurement tools, continually refine the approach, and account for uncertainty in the data.

Join Dr. One at our extraterrestrial lab facility, where we’re struggling to get enough propulsion for our transporter. We need you to figure out the kinetics and optimize the chemical reaction of the fuel we’re using, so we can continue with our experiments.

Discover unique areas within an exoplanet’s landscape and apply your findings to predict the persistence of an alien species by estimating colonization and extinction rates.

Visit Antarctica to take the perfect picture of a penguin! You will get help from Albert Einstein, who will teach you how reflection and refraction of light affect the photos you take among the snow and ice.

Investigate the principles of Mendelian inheritance and help a patient determine if his future children will inherit his color-blindness.

Investigate why the Kuppelfangs died when transplanted to the new Astakos IV biodome on Earth. Quantify their realized and fundamental niche, and explore how acclimation affects the boundaries of a niche.