The first Nobel Prize was awarded in 1905, but the way science is done has changed since then. The experimentalists now have to work in these large teams, whereas theorists might still work in a more solar or small way. A lot of the prizes are awarded for the theoretical breakthroughs while not recognizing so much anymore. And I think it's right to question whether or not these structures, which have only existed like the physics one,.
Physics has always sought to deepen our understanding of the nature of matter and the world around us. But how do you conduct experiments with the fundamental building blocks of existence? How do you manipulate a particle a trillion times smaller than a grain of sand? How do you cause a proton to sail around a twenty-seven-kilometer-long loop 11,000 times per second? And, crucially, why is all this important? In The Matter of Everything, accelerator physicist Suzie Sheehy introduces us to the people who, through a combination of genius, persistence and luck, staged the experiments that changed the course of history.
Shermer and Sheehy discuss: what it’s like being a female physicist in a mostly male field • Does science progress through falsification, confirmation, consensus, or Bayesian reasoning? • atoms, light, Higgs Boson, time, gravity, dark energy, dark matter, string theory, radioactivity • Gold Foil Experiment • cloud chambers • particle accelerators • splitting the atom • Is there a place for God in scientific epistemology? • Is math all there is? Is math universal? • other universes, dimensions, and the multiverse.
Suzie Sheehy is a physicist, science communicator and academic who divides her time between research groups at the University of Oxford and University of Melbourne. She is currently focused on developing new particle accelerators for applications in medicine. The Matter of Everything is her first book.