@article{1484001,
      author = {Graham, Liam,},
      url = {http://library.usi.edu/record/1484001},
      title = {Molecular storms : the physics of stars, cells and the  origin of life /},
      abstract = {Why is the universe the way it is? Wherever we look, we  find ordered structures: from stars to planets to living  cells. This book shows that the same driving force is  behind structure everywhere: the incessant random motion of  the components of matter. Physicists call it thermal noise.  Lets call it the molecular storm. This storm drives the  fusion reactions that make stars shine. It drives  whirlpools and currents in atmospheres and oceans. It spins  and distorts molecules until they are in the right  orientation to react and form new substances. In living  cells, it drives proteins to fold and molecules to  self-assemble. It is behind every detail of the astonishing  molecular machines that control cellular processes. Using  cutting-edge research, Molecular Storms takes us on a  dazzling journey from the early universe to the interior of  the smallest living things. There, in a nanoscale world of  biological devices, it explains the physics behind the  chemical system which we call Life. Whether you're someone  with a general interest in science or a student looking to  add context to your studies, this book is for you.  "Molecular Storms" is an accessible and captivating read  that will deepen your appreciation of the power of science  to explain the world.},
      doi = {https://doi.org/10.1007/978-3-031-38681-7},
      recid = {1484001},
      pages = {1 online resource.},
}