In fundamental physics, the LHC is online, neutrino physics is hot, and lots is going on. Now there are a huge number of quantum theories of black holes, but no way to prove anything about them in site.
The dark matter problem is a huge "anomaly" left to solve so there are still mountains to climb.
In terms of practical stuff there is lots of physics in how you build a 7nm microchip. Physicists collaborate a lot with "nanotechnology" people and biologists. For instance my thesis advisor worked with experimentalists who were stretching DNA with tweezers and figured out how the AIDS virus self-assembles.
Even the "dead" area of chaos theory is looking much better now that people at NASA have made a map of the earth-moon phase space which can give a km/sec or so free propulsion.
Even the "dead" area of chaos theory is looking much
better now that people at NASA have made a map of the
earth-moon phase space which can give a km/sec or so
free propulsion.
In fundamental physics, the LHC is online, neutrino physics is hot, and lots is going on. Now there are a huge number of quantum theories of black holes, but no way to prove anything about them in site.
The dark matter problem is a huge "anomaly" left to solve so there are still mountains to climb.
In terms of practical stuff there is lots of physics in how you build a 7nm microchip. Physicists collaborate a lot with "nanotechnology" people and biologists. For instance my thesis advisor worked with experimentalists who were stretching DNA with tweezers and figured out how the AIDS virus self-assembles.
Even the "dead" area of chaos theory is looking much better now that people at NASA have made a map of the earth-moon phase space which can give a km/sec or so free propulsion.