Want this question answered?
Quantum mechanics simply helps us to understand the universe better. Right now, it does not have too many practical applications, but in the future it may help us discover time travel, or new sources of energy, but no one really knows.
First of all: The Bohr Atom interpretation (this wasstill very classical and not very quantummy). After that came (in chronological order): Heisenberg's Matrix Mechanics, Shrodinger's Wave Mechanics, and the best, Richard Feynman's and Julian Shwinger's "Quantum Electro-Dynamics" which eventually became the now widely accepted "Quantum Electro-Weak Theory" encompassing the weak force as well as photons and electrons. Hope this helps.
First of all: The Bohr Atom interpretation (this wasstill very classical and not very quantummy). After that came (in chronological order): Heisenberg's Matrix Mechanics, Shrodinger's Wave Mechanics, and the best, Richard Feynman's and Julian Shwinger's "Quantum Electro-Dynamics" which eventually became the now widely accepted "Quantum Electro-Weak Theory" encompassing the weak force as well as photons and electrons. Hope this helps.
Measurements in quantum physics helps us understand the density matrix of quantum-mechanical systems.
A college transition class is a class that helps you transition into college level classes. it;s like an intro course.
www.physics4kids.com
probability
A blood transition is they oxygen gets through your body and helps u breath trough your lungs.
quantum hypothesis
ARS
the type everyone else does. (; hope that helps
Discrete probability. It helps if the all the outcomes in the sample space are equally probable but that is not a necessity.