Our STEM catalog offers course packages designed to enhance the teaching of science, technology, engineering, and mathematics. Each simulation is developed specifically to match your STEM curriculum, providing students with immersive, real-world scenarios to deepen their understanding. With full LMS integration, faculty and students can easily access these simulations and track progress, all within your existing academic systems.
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Participate in a physiology laboratory to gain insights into the mechanics of smooth muscle contraction through various in vitro experiments. Additionally, assist your friend in pinpointing the source of her intestinal discomfort.
Embark on a journey to the exoplanet Astakos IV, where the Kuppelfang population faces a bacterial infection crisis. Employ staining techniques, differential media, and biochemical tests to identify the responsible bacteria and help save the Kuppelfangs from extinction through timely treatment.
Explore the characteristics of two distinct types of skeletal muscle and assess their fiber composition. Employ histochemistry and force transduction techniques to draw comparisons between these muscles and gain insights into why you can sustain energy during extended walks but experience fatigue during short sprints.
Explore the relationship between the growth of blood vessels and the progression of cancer, and apply this understanding to pinpoint a potential treatment for breast cancer.
Gain insight into the fundamental processes of sensory transduction through a series of in vitro and in vivo experiments. Determine the suitable anesthetic medication that enables your friend to continue mountain climbing without compromising muscle function.
Explore every aspect of SDS-PAGE, starting from the choice of gel and sample preparation, through chamber assembly, and delving into the intricate processes that occur when the current is activated. This procedure enables the separation of proteins based solely on their molecular weight, moving us closer to the identif
Delve into the kidneys anatomy to unravel its diverse functions, while also investigating the mechanism behind a novel diuretic drug. This drug holds promise in averting hypertension.
Acquire the skills for isolating RNA from samples of pig adipose tissue and purifying messenger RNA through the use of magnetic beads.
Delve into the architecture of proteins and gain insights into the cellular synthesis procedures.
Master the methods and utilization of Polymerase Chain Reaction and Gel Electrophoresis. Engage in a practical scenario, like examining distinct genetic profiles to resolve a criminal investigation.
Employ liquid chromatography for the purification of a protein associated with Parkinsons disease to gain insights into its underlying causes. Assess the effectiveness of a potential treatment molecule through confocal microscopy.
Acquire knowledge about the various stages involved in sample preparation, sequencing, data acquisition, and data interpretation through the utilization of next-generation sequencing technology.
Explore the fundamentals of cancer progression and gene mutations associated with cancer to evaluate the potential breast cancer risk in a patient with a familial history of cancer
Support the basketball players in grasping the conversion of food into energy by exploring glycolysis, which is the initial stage of cellular respiration.
Assist local basketball athletes in comprehending the conversion of their dietary intake into energy through the process of cellular respiration. Employ a mouse model to investigate the impact of exercise intensity on the utilization of oxygen and glucose.
Examine various cell specimens under the microscope to distinguish the distinctions between eukaryotic and prokaryotic cells. Construct the anatomy of an animal cell and select the internal organelles for four distinct specialized cell types.