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Learning Objectives

At the end of this simulation, you will be able to:

Comprehend fundamental eukaryotic cell concepts, including primary cellular elements and DNA arrangement, using immersive animations.
Grasp the distinctive features of various stages within the cell cycle: interphase (G1, S, and G2) and mitosis.
Apply diverse microscopy techniques to observe and detail the distinct phases of mitosis (Prophase, Metaphase, Anaphase, Telophase), highlighting their primary characteristics.
Clarify the cell cycle checkpoints, pinpointing the molecules responsible for their regulation (cyclins and cyclin-dependent kinases) and elucidating their roles.
Enumerate and expound upon the principal distinctions between mitosis and meiosis.

How do virtual labs work?

Enhance students' involvement in science by immersing them in interactive learning scenarios. Create simulations for experiments, provide hands-on training in laboratory techniques, and convey theoretical concepts through captivating visual experiences to improve their overall long-term learning outcomes.

Access web-based simulations that are compatible with laptops, Chromebooks, tablets, and iPads, eliminating the need for software installation.
Incorporate a teacher dashboard for automated grading and monitoring of student progress.
Utilize embedded quizzes to assist students in mastering scientific content.
Comprehensive repository of educational materials, including learning resources, lab reports, videos, theory pages, graphics, and more.

Virtual Lab on Cell Division Principles: Mitosis and Meiosis

Relevant Course Packages All Course Packages →

Virtual Lab: Protein Separation Based on Molecular Weight Using SDS-PAGE

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 identification of the target protein.

Virtual Lab: Carbohydrates - The Sugars Nourishing Our Bodies

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.

Virtual Lab on Cellular Respiration Principles: Assessing Energy Expenditure During Physical Activity

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.

Virtual Lab: Comparative Analysis of Bacterial Structures

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.

Virtual Lab: Mitigating Carbon Emissions within the Carbon Cycle

Assist Farmer Greg in gaining insights into the broader factors influencing corn production. Analyze various reservoirs and their interconnections, and then explore the impact of human emissions on the cycle using the interactive 3D model.

Virtual Lab: Neutralizing Acidic Lake Contamination through Titration

Measuring the concentration of an acid might seem monotonous, but with the guidance of a science expert, you can master the art of titration with flair!

LMS Integration

imaginX seamlessly integrates with leading LMS (Learning Management Systems), enabling educators to track student performance and allowing students to maintain their work records. It is compatible with popular platforms such as Canvas, Blackboard, Moodle, Google Classroom, Schoology, Sakai, Brightspace/D2L, and can also be used independently of an LMS.