The aim of physics is to understand how nature works. Developing this understanding begins with careful observation and experimentation. This is followed up with tentative hypotheses and eventually formal theories to explain the phenomena. Predictions made by the theories are in turn tested against new experiments, which may lead to refinements in the theories, and so on in an ever-tightening spiral.
Historically, the first successful theory of universal scope was Newtonian mechanics, which explained how forces cause objects to change their motion. Later physicists developed equally successful theories of electromagnetism, light (optics), and heat (thermodynamics).
Early in the twentieth century, refined experiments forced physicists to extend Newtonian mechanics in two ways. To describe objects moving near the speed of light or in strong gravitational fields, Einstein developed his famous theories of relativity. Even more radical was quantum mechanics, a theory that explained the behavior of particles at the atomic scale.
Today, the scope of physics extends from the smallest subatomic particles to the entire observable universe. In between, physicists study nuclear reactions, the interactions of atoms with light, properties of solids, chaotic dynamics of fluids, atmospheric processes, pulsations of stars, and the evolution of galaxies. One of the fascinating aspects of all these seemingly disparate fields is that they are so closely related to each other. For example, the mathematics that describes electrons in a metal can also be used to predict the size of a neutron star. On a grander scale, our understanding of the earliest history of the universe depends entirely on our knowledge of the forces that act between elementary particles.
Any person with a curiosity about the physical universe can benefit from studying physics. One need not have aspirations to be a professional physicist, although that is certainly a career option. More generally, everyone needs an understanding of physics because of the bearing it has on the wide range of issues facing us in the 1990s and beyond, including energy resources, the environment, space exploration, communication, medicine, and arms control.
The mission of the Physics Department at Weber State University is to provide high quality instruction in physics at the undergraduate level. This includes providing courses in the general education area of physical science, pre-professional and pre-engineering courses in physics, and courses and programs for those desiring to major or minor in physics.
Further purposes of the Department include providing counseling for the students served by the Department, providing opportunities for research and other scholarly activities of both faculty and students, and serving as a resource for the campus and the state of Utah in the areas of physics and astronomy.