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.
Showing 17 - 32 of 32 results
Embark on a journey to an Antarctic research station and collaborate with scientist Nicolas to investigate bacteria thriving in melting water. Delve into the essential survival traits of these microorganisms and draw comparisons with bacteria residing in diverse environments.
Assist a basketball team in understanding the second phase of cellular respiration, the Krebs cycle, to enhance their endurance and performance during the game.
Explore the inner workings of a mitochondrion to gain a comprehensive understanding of the electron transport chain (ETC) and then share your discoveries with the basketball team so they can also benefit from this knowledge!
Explore the concept of respiration monitoring and enhanced comprehension through Respirometry. Gain insights into the influence of exercise on respiration by observing glucose levels and oxygen consumption in a model organism, namely a mouse.
Assist basketball players in comprehending the conversion of dietary nutrients into energy, involving glycolysis, the Krebs cycle, and the electron transport chain. Employ a mouse model to investigate the impact of exercise intensity on oxygen and glucose utilization.
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.
Participate in a cell biology research team to explore the potential use of a toxic compound from the yew tree in cancer treatment. Immerse yourself in an animated human cell model and employ light and fluorescence microscopy to investigate the process of cell division.
Employ medical assessments to collect data on patients and assess their cardiovascular systems reactions to varying levels of exercise intensity.
Have you ever been curious about the nature of starch? Explore the composition of complex carbohydrates and find out how you can conduct tests to detect the presence of these compounds in food samples.
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
Acquire knowledge about various organ systems, their primary functions, and their locations within body cavities. Apply this acquired knowledge to assist in responding to medical emergencies. Are you able to correlate a patients symptoms with a potentially malfunctioning organ system?
Examine diverse bacterial morphologies by utilizing a microscope to observe a sample of bacteria collected from Antarctica.
Gain an understanding of antibodies, antigens, the ABO and Rhesus blood grouping systems, and their significance in blood transfusions. Subsequently, assist a young couple in assessing the potential risk of Rhesus disease in their unborn child.
Explore the fundamentals of antibodies, antigens, the ABO blood group system, and the Rhesus factor, and their critical roles in blood transfusions. Next, assist a young couple in assessing the potential risk of Rhesus disease in their upcoming child.