QuVis: The Quantum Mechanics Visualization Project
... Animations and simulations can help students build mental representations of physics concepts through high levels of interactivity, prompt feedback and multiple representations of physics concepts, including microscopic processes that cannot be directly observed. By choosing particular interactive e ...
... Animations and simulations can help students build mental representations of physics concepts through high levels of interactivity, prompt feedback and multiple representations of physics concepts, including microscopic processes that cannot be directly observed. By choosing particular interactive e ...
new physics and the mind paster
... variables interpretation of QM, there is an underlying set of unknown and unseen information that governs the otherwise apparently indeterminate quantum outcome, implying that reality is well defined even in the absence of observation. The hidden variables approach implies non-locality. One interpre ...
... variables interpretation of QM, there is an underlying set of unknown and unseen information that governs the otherwise apparently indeterminate quantum outcome, implying that reality is well defined even in the absence of observation. The hidden variables approach implies non-locality. One interpre ...
Symmetry and Supersymmetry - UCLA Department of Mathematics
... based on their spin. The spin states of a particle form an irreducible module for SU(2) of dimension 2j + 1 where j ∈ (1/2)Z is the spin. Particles with j integral (resp. half integral) are bosons (resp. fermions). Electrons, protons and neutrons are fermions while the photon is a boson. The Hilbert ...
... based on their spin. The spin states of a particle form an irreducible module for SU(2) of dimension 2j + 1 where j ∈ (1/2)Z is the spin. Particles with j integral (resp. half integral) are bosons (resp. fermions). Electrons, protons and neutrons are fermions while the photon is a boson. The Hilbert ...
Lecture Notes and Solved Problems
... First you observe the world, and you also do experiments. You also abstract from the many observations and experiments the key quantities (such as position, velocity, force, etc.) that will appear in your theories. Then you create theories that relate the key quantities in ways that help you explain ...
... First you observe the world, and you also do experiments. You also abstract from the many observations and experiments the key quantities (such as position, velocity, force, etc.) that will appear in your theories. Then you create theories that relate the key quantities in ways that help you explain ...
