Akademik Dersler - İçerik

Receives general knowledge on special theory of relativity
Can utilize the Lorentz transformations
Can perform four-vector operations
Can make basic relativistic kinematics calculations
Learns about the concepts of lifetime and cross-section
Receives general knowledge on quantum electrodynamics
Knows about the Dirac equation and its solutions
Can define the concepts of parity and bilinear covariant
Can study the electromagnetic fields from a relativistic quantum mechanics point of view
Can write transition amplitudes for QED processes using Feynman's diagrams
Can explain the concepts of vacuum polarization and renormalization
Can discuss the structure of hadrons
Can define the concept of hadronic jet
Learns about elastic and inelastic e-p scattering and proton structure functions
Can define the concepts of deep inelastic scattering and Björken scaling
Can explain hadron structure using the parton model and quark distribution functions
Receives a general knowledge on quantum chromodynamics
Can form Feynman diagrams for basic QCD processes
Can form quark flow diagrams
Can define the concepts of confinement and asymptotic freedom
Receives general information about weak Interactions
Can form Feynman diagrams for basic weak interaction processes
Learns the concepts of quark flavor change and about the CKM matrix
Receives a background on massive neutrino physics
Can explain the neutrino mass/energy eigenstates and the neutrino oscillations
Can discuss the contents of the standard model
Can discuss the particle content of the standard model
Knows the conservation laws of the standard model
Knows the fundamental interactions and can compare them