A University of Hawaiʻi at Mānoa student-led team has developed a new algorithm to help scientists determine direction in ...

Explore 2D linear drag by comparing analytical and numerical solutions in this clear and engaging physics tutorial. In this video, we break down the mathematics behind linear drag forces, demonstrate ...

Explore the physics behind 2D projectile motion under linear drag forces in this detailed tutorial! In this video, we break down how air resistance affects projectile trajectories, compare motion with ...

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MXene nanoscrolls transform flat 2D materials into conductive 1D structures, unlocking advances in energy storage, sensing, ...

As the demand for smarter, smaller, and more energy-efficient electronics surges, the limits of conventional 3D semiconductors are becoming impossible to ignore. Now, researchers from Netaji Subhas ...

1D bands take on electronic or magnetic properties. Courtesy: Yakobson Research Group/Rice University Researchers at Rice University in the US have proposed a new way of controlling the magnetic and ...

Today we continue on our journey of understanding motion, direction, and velocity. Continuing in our journey of understanding motion, direction, and velocity... today, Shini introduces the ideas of ...

Two-dimensional (2D) materials, in general, allow the realization of unique quantum phenomena unattainable in the common ...

Ultrathin materials such as graphene promise a revolution in nanoscience and technology. Researchers have now made an important advance within the field. In a recent article they present a method for ...