Physicists investigate structural properties of spider webs
Tobacco hornworm found to use nicotine to create 'defensive halitosis'
Spider venom reveals new secret
University of Arizona researchers led a team that has discovered that venom of spiders in the genus Loxosceles, which contains about 100 spider species including the brown recluse, produces a different chemic ...
Study shows some spiders have individualized personalities
GM silkworms bred to spin fluorescent
Spectroscopy sheds new light on mysteries of spider silk
(Phys.org)—Researcher and team are the first to measure all of the elastic properties of an intact spider's web, drawing a remarkable picture of the behavior of one of nature's most intriguing structures. ...
Researchers unravel mysteries of spider silk
(Phys.org)—Scientists at Arizona State University are celebrating their recent success on the path to understanding what makes the fiber that spiders spin – weight for weight - at least five times as ...
Fossil of ancient spider attack only one of its type ever discovered
(Phys.org)—Researchers have found what they say is the only fossil ever discovered of a spider attack on prey caught in its web – a 100 million-year-old snapshot of an engagement frozen in time.
Spider silk conducts heat as well as metals, study finds
Xinwei Wang had a hunch that spider webs were worth a much closer look.
A spider web's strength lies in more than its silk
While researchers have long known of the incredible strength of spider silk, the robust nature of the tiny filaments cannot alone explain how webs survive multiple tears and winds that exceed hurricane strength.
Jumping spider uses fuzzy eyesight to judge distance
Silkworms spinning spider webs
Researchers link patterns seen in spider silk, melodies
Using a new mathematical methodology, researchers at MIT have created a scientifically rigorous analogy that shows the similarities between the physical structure of spider silk and the sonic structure of ...
Spider know-how could cut future energy costs
(PhysOrg.com) -- Scientists at Oxford University and The University of Sheffield have demonstrated that natural silks are a thousand times more efficient than common plastics when it comes to forming fibres.