No "sticky ends"? No problem. A new study by NYU chemists finds that DNA tiles can assemble into 3D structures without the ...

Explore non-trivial 1D square wells in Python with this detailed physics tutorial! 🐍⚛️ Learn how to model quantum systems, analyze energy levels, and visualize wave functions using Python simulations ...

Learn how to simulate and visualize pool ball collisions using Python and spring mechanics! This video walks you through the physics behind elastic collisions, momentum transfer, and how springs can ...

Imagine trying to design a key for a lock that is constantly changing its shape. That is the exact challenge we face in ...

Explores our fatal attraction to AI, examining emotional dependence, manipulation, authority, and agency in work and life.

Inspired by the shape-shifting skin of octopuses, Penn State researchers developed a smart hydrogel that can change appearance, texture, and shape on command. The material is programmed using a ...

Harvard engineers created rotational multimaterial 3D printing that embeds air channels in soft robotic parts, enabling hand-like motion without molds.

Phil Bernstein and Vincent Guerrero present four areas where AI will develop fast in the architectural profession in 2026, ...

The thick client is making a comeback. Here’s how next-generation local databases like PGlite and RxDB are bringing ...

OpenAI rolls out GPT-5.3 Instant, improving ChatGPT with fewer refusals, smarter web answers, lower hallucination rates, and stronger writing.

Physical AI is not merely a product feature. It is an architectural shift. When intelligence lives next to the phenomenon it observes, we gain what the cloud alone cannot consistently provide: low ...