The field of paleo-inspired robotics is opening up a new way to turn back time and studying prehistoric animals.

A tiny marine flatworm-inspired robot glides silently through water, revolutionizing pollution tracking and coral reef monitoring.

Their locomotion looked like that of the leaping dolphins, seals and fish who porpoise to conserve energy. The energy savings come from the reduced resistance animals face when traveling through ...

Since being taken for his first train ride on the Scarborough North Bay Railway by his dad at just a few weeks old, Steve ...

The tissues of the MH7 fossil were so precisely preserved that researchers could study individual skin cells. In some samples ...

Dive into the findings of the first detailed study of plesiosaur skin, which was a strange mosaic of textures.

In honor of the Year of the Snake, let’s appreciate the strange anatomy and evolution of these slithery reptiles ...

THE National Railway Museum in the UK is to undergo a huge multi-million revamp. Thanks to an investment of £15million, the ...

Each segment contains a motor and a tendon actuator, which expands and contracts to create locomotion ... “You start with the fish, then you get a simple organism and it’s supported by ...

How do crocs propel their massive bodies straight up into the air? Find out how coordinated crocodiles defy gravity with ...

The smooth skin, adapted for swimming, promoted hydrodynamics and speed for capturing marine prey such as fish or squid-like animals ... on the evolution of marine reptiles and the different ...