Back to Results
First PageMeta Content
Particle physics / Mass / Amoeboids / Protista / Slime mold / Auxin / Multicellular organism / Physarum polycephalum / Slime / Physics / Biology / Evolutionary biology


So how did they do it? Slime-moulds are made up of bits of pulsating tissue that change the speed of their pulsations according to what is detected in the immediate environment. Pulsating parts are also affected by neigh
Add to Reading List

Document Date: 2013-06-18 16:03:25

Open Document

File Size: 1,02 MB

Share Result on Facebook

City

CERN / Field / Sheffield / /

Company

BBC News / Jodrell Bank / Creative Commons / Mars Science Laboratory / Aquila / /

Country

Germany / Switzerland / Greenland / Italy / Canada / Australia / /

Currency

USD / /

Event

Environmental Issue / Man-Made Disaster / Extinction / /

Facility

University of Sheffield / Mars Science Laboratory / University of Copenhagen / /

IndustryTerm

sensory systems / particle physics energy / high energy particle / neural systems / unpalatable chemical / ethylene gas / volatile chemicals / cognitive systems / non-living chemicals / dark energy / high energy plasma / digital media / waste products / waste-removal network / /

MusicGroup

Eve / /

NaturalFeature

Ediacaran Hills / /

Organization

Mars mission / University of Sheffield / Russian Federal Space Agency / National Aeronautics and Space Administration / University of Copenhagen / /

Person

Eve / Bernard Lovell / Pat Shipman / Peter Higgs / David Rosevear / Mary Schweitzer / John Sanford / Fabiola Goanotti / James Marshall / Joe Incandela / /

Position

computer scientist / researcher / Scientist / numbercrunching scientist / palaeo-anthropologist / Designer / research chemist / /

ProvinceOrState

Sussex / /

PublishedMedium

New Scientist / ATLAS / The BBC news / /

Technology

flash memory / artificial intelligence / /

URL

www.sxc.hu / www.rgbstock.com / http /

SocialTag