狠狠撸shows by User: PlesuGh
/
http://www.slideshare.net/images/logo.gif狠狠撸shows by User: PlesuGh
/
Mon, 11 Apr 2022 18:14:28 GMT狠狠撸Share feed for 狠狠撸shows by User: PlesuGhThe Rainbow and the Worm_ The Physics of Organisms
/slideshow/the-rainbow-and-the-worm-the-physics-of-organisms-251564835/251564835
therainbowandthewormthephysicsoforganismspdfdrive-220411181429 There are 鈥榖ig鈥� questions and 鈥榮mall鈥� questions in science. Most scientists
in their work-a-day life confine themselves to asking small questions such
as: Which gene is involved in a given hereditary defect? How will a
certain organism react to such and such a stimulus? What are the
characteristics of this or that compound? What is the effect of A on B?
How will a given system behave under different perturbations? Yet, it is
not a desire to solve particular puzzles that motivates the scientist, but
rather the belief that in solving those little puzzles, a contribution will be
made to larger questions on the nature of metabolic or physiological
regulation, the generic properties of nonlinear dynamical systems, and so
on. It is ultimately the big questions that arouse our passion 鈥� both as
scientists and as ordinary human beings. They can inspire some of us as
the most beautiful works of art that nature has created, whose meaning is
to be sought as assiduously as one might the meaning of life itself.]]>
There are 鈥榖ig鈥� questions and 鈥榮mall鈥� questions in science. Most scientists
in their work-a-day life confine themselves to asking small questions such
as: Which gene is involved in a given hereditary defect? How will a
certain organism react to such and such a stimulus? What are the
characteristics of this or that compound? What is the effect of A on B?
How will a given system behave under different perturbations? Yet, it is
not a desire to solve particular puzzles that motivates the scientist, but
rather the belief that in solving those little puzzles, a contribution will be
made to larger questions on the nature of metabolic or physiological
regulation, the generic properties of nonlinear dynamical systems, and so
on. It is ultimately the big questions that arouse our passion 鈥� both as
scientists and as ordinary human beings. They can inspire some of us as
the most beautiful works of art that nature has created, whose meaning is
to be sought as assiduously as one might the meaning of life itself.]]>
Mon, 11 Apr 2022 18:14:28 GMT/slideshow/the-rainbow-and-the-worm-the-physics-of-organisms-251564835/251564835PlesuGh@slideshare.net(PlesuGh)The Rainbow and the Worm_ The Physics of OrganismsPlesuGhThere are 鈥榖ig鈥� questions and 鈥榮mall鈥� questions in science. Most scientists
in their work-a-day life confine themselves to asking small questions such
as: Which gene is involved in a given hereditary defect? How will a
certain organism react to such and such a stimulus? What are the
characteristics of this or that compound? What is the effect of A on B?
How will a given system behave under different perturbations? Yet, it is
not a desire to solve particular puzzles that motivates the scientist, but
rather the belief that in solving those little puzzles, a contribution will be
made to larger questions on the nature of metabolic or physiological
regulation, the generic properties of nonlinear dynamical systems, and so
on. It is ultimately the big questions that arouse our passion 鈥� both as
scientists and as ordinary human beings. They can inspire some of us as
the most beautiful works of art that nature has created, whose meaning is
to be sought as assiduously as one might the meaning of life itself.<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/therainbowandthewormthephysicsoforganismspdfdrive-220411181429-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> There are 鈥榖ig鈥� questions and 鈥榮mall鈥� questions in science. Most scientists
in their work-a-day life confine themselves to asking small questions such
as: Which gene is involved in a given hereditary defect? How will a
certain organism react to such and such a stimulus? What are the
characteristics of this or that compound? What is the effect of A on B?
How will a given system behave under different perturbations? Yet, it is
not a desire to solve particular puzzles that motivates the scientist, but
rather the belief that in solving those little puzzles, a contribution will be
made to larger questions on the nature of metabolic or physiological
regulation, the generic properties of nonlinear dynamical systems, and so
on. It is ultimately the big questions that arouse our passion 鈥� both as
scientists and as ordinary human beings. They can inspire some of us as
the most beautiful works of art that nature has created, whose meaning is
to be sought as assiduously as one might the meaning of life itself.
]]>
4730https://cdn.slidesharecdn.com/ss_thumbnails/asea16-april2012humanperformancelaboratorychartsreportglossy-131127101951-phpapp02-210505133433-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0https://public.slidesharecdn.com/v2/images/profile-picture.pnghttps://cdn.slidesharecdn.com/ss_thumbnails/therainbowandthewormthephysicsoforganismspdfdrive-220411181429-thumbnail.jpg?width=320&height=320&fit=boundsslideshow/the-rainbow-and-the-worm-the-physics-of-organisms-251564835/251564835The Rainbow and the Wo...https://cdn.slidesharecdn.com/ss_thumbnails/asea16-april2012humanperformancelaboratorychartsreportglossy-131127101951-phpapp02-210505133433-thumbnail.jpg?width=320&height=320&fit=boundsslideshow/asea16-april2012humanperformancelaboratorychartsreportglossy131127101951phpapp02/247803720Asea16 april2012humanp...