CH 4 SEC 2: Book Notes
... w Values of the principle quantum number are positive integers only—1, 2, 3, and so on. (principle quantum number is referred as n) w As n increases, the electron’s energy and its average distance from the nucleus increase. (see Figure 12) w more than one electron can have the same n value. These ...
... w Values of the principle quantum number are positive integers only—1, 2, 3, and so on. (principle quantum number is referred as n) w As n increases, the electron’s energy and its average distance from the nucleus increase. (see Figure 12) w more than one electron can have the same n value. These ...
NEW COVER SLIDE- qinfo with p & a
... • Non-orthogonal quantum states cannot be distinguished with certainty. • This is one of the central features of quantum information which leads to secure (eavesdrop-proof) communications. ...
... • Non-orthogonal quantum states cannot be distinguished with certainty. • This is one of the central features of quantum information which leads to secure (eavesdrop-proof) communications. ...
Electron Configuration Class Notes
... Energy moves in waves, but it can act as particles (photons). Louie de Broglie – “matter waves” Postulated that since light shows a “dual nature” – has wave properties as well as particulate properties, then matter should also be able to move - not only as particles - but also as waves! - this prope ...
... Energy moves in waves, but it can act as particles (photons). Louie de Broglie – “matter waves” Postulated that since light shows a “dual nature” – has wave properties as well as particulate properties, then matter should also be able to move - not only as particles - but also as waves! - this prope ...
Syllabus for the course
... Chemistry 158, Physical Chemistry, applies the fundamental principles of physics such as mechanics and mathematical methods to the understanding of chemical phenomena. The first semester of course takes a microscopic perspective and covers quantum mechanics and statistical mechanics. The material on ...
... Chemistry 158, Physical Chemistry, applies the fundamental principles of physics such as mechanics and mathematical methods to the understanding of chemical phenomena. The first semester of course takes a microscopic perspective and covers quantum mechanics and statistical mechanics. The material on ...
DG 0
... Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. ...
... Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. ...
Physics 11 with elaborations - BC Curriculum
... — Second: free-body diagrams; the net force from two or more forces — Third: demonstrate that actions happen at the same time and in pairs • the relationship between variables: Refer to the formula sheet. • First Peoples knowledge: the application of Newton’s laws in various First Peoples technologi ...
... — Second: free-body diagrams; the net force from two or more forces — Third: demonstrate that actions happen at the same time and in pairs • the relationship between variables: Refer to the formula sheet. • First Peoples knowledge: the application of Newton’s laws in various First Peoples technologi ...
from last time:
... you may need to write down the S.E. for each distinct region where there is a different U. Find a wave function which is a solution to the S.E. – this is often done by educated guessing, and there may be more than one solution. Apply boundary conditions – these will often limit your values of energy ...
... you may need to write down the S.E. for each distinct region where there is a different U. Find a wave function which is a solution to the S.E. – this is often done by educated guessing, and there may be more than one solution. Apply boundary conditions – these will often limit your values of energy ...
Ω (E)
... • Define: Ω(E) ≡ Total number of accessible states in this range. y ≡ A macroscopic system parameter (pressure, magnetic moment, etc.). • Define: Ω(E;yk) ≡ A subset of Ω(E) for which y ≡ yk (yk = A particular value of y) ...
... • Define: Ω(E) ≡ Total number of accessible states in this range. y ≡ A macroscopic system parameter (pressure, magnetic moment, etc.). • Define: Ω(E;yk) ≡ A subset of Ω(E) for which y ≡ yk (yk = A particular value of y) ...
The nucleus
... Angular momentum and parity (J+ or J-) a protons and neutrons have spin s=1/2 a protons and neutrons move inside the nucleus and have orbital angular momentum l How do we add the l’s and s’s of the nucleons? J = Σ jnucleon ‘angular momentum’ or ‘spin’ parity of the nucleus: λ = (-1)l where l is the ...
... Angular momentum and parity (J+ or J-) a protons and neutrons have spin s=1/2 a protons and neutrons move inside the nucleus and have orbital angular momentum l How do we add the l’s and s’s of the nucleons? J = Σ jnucleon ‘angular momentum’ or ‘spin’ parity of the nucleus: λ = (-1)l where l is the ...
History of "s,p,d,f"
... The wave numbers (= 1/wavelengths) of the spectral lines of each series were determined empirically from differences between a series-specific limiting term and a running term, the latter proportional to 1 divided by the square of an integer in a way similar to the Rydberg formula. Quantum theory su ...
... The wave numbers (= 1/wavelengths) of the spectral lines of each series were determined empirically from differences between a series-specific limiting term and a running term, the latter proportional to 1 divided by the square of an integer in a way similar to the Rydberg formula. Quantum theory su ...