Chemical Terms and Keywords
... Chemistry 130 Final Examination Review Sheet This review sheet contains an alphabetical list of chemical terms, keywords, and equations used or discussed in Chemistry 130. For each term or keyword, you should be able to write a few sentences about the topic and its relationships to other topics in t ...
... Chemistry 130 Final Examination Review Sheet This review sheet contains an alphabetical list of chemical terms, keywords, and equations used or discussed in Chemistry 130. For each term or keyword, you should be able to write a few sentences about the topic and its relationships to other topics in t ...
Erwin Schroedinger, Max Born and Wave Mechanics
... Studied physics under Max Born and soon became his assistant Most famous for his discovery of The uncertainty principle which says that you cannot measure the position (x) and the momentum (p) of a particle with precision, the more accurate one of your values is, the less accurate the other will be ...
... Studied physics under Max Born and soon became his assistant Most famous for his discovery of The uncertainty principle which says that you cannot measure the position (x) and the momentum (p) of a particle with precision, the more accurate one of your values is, the less accurate the other will be ...
Chapter 2 - Molecular orbital theory
... • Interrelate bond order, bond length, and bond strength for diatomic and triatomic molecules, including neutral and ionized forms. • Use molecular orbital theory to predict molecular geometry for simple triatomic systems • Rationalize molecular structure for several specific systems in terms of orb ...
... • Interrelate bond order, bond length, and bond strength for diatomic and triatomic molecules, including neutral and ionized forms. • Use molecular orbital theory to predict molecular geometry for simple triatomic systems • Rationalize molecular structure for several specific systems in terms of orb ...
ki̇mya
... their motions are stable . Each stationery state has a definite energy. • Electrons move in each stationary energy state in a circular orbital. These circular orbitals are called energy levels or shells. The possible states for the electron are numbered, n=1, 2, 3 and so on. • When an electron is in ...
... their motions are stable . Each stationery state has a definite energy. • Electrons move in each stationary energy state in a circular orbital. These circular orbitals are called energy levels or shells. The possible states for the electron are numbered, n=1, 2, 3 and so on. • When an electron is in ...
Chapter 12
... Schrödinger developed a differential equation, which treated the electron as both a wave and a particle. For the H atom it gave the same energies as Bohr. But, it gives quite a different picture of the atom. It was successfully applied to other atoms.When the Schrödinger equation is solved for the H ...
... Schrödinger developed a differential equation, which treated the electron as both a wave and a particle. For the H atom it gave the same energies as Bohr. But, it gives quite a different picture of the atom. It was successfully applied to other atoms.When the Schrödinger equation is solved for the H ...
Orbitals
... The Bohr model didn’t work for atoms other than hydrogen. Though limited, Bohr’s approach did attempt to explain the quantized energy levels of electrons. Later developments showed that any attempt to define the path of the electron is incorrect. ...
... The Bohr model didn’t work for atoms other than hydrogen. Though limited, Bohr’s approach did attempt to explain the quantized energy levels of electrons. Later developments showed that any attempt to define the path of the electron is incorrect. ...
Lec-22_Strachan
... object The electrons can be accelerated to high energies and have small wavelengths ...
... object The electrons can be accelerated to high energies and have small wavelengths ...
File
... Principal Quantum Number (n) Designates the energy level Tells how far away from the nucleus an electron is likely to be. Assigned values in order of increasing energy: n = 1, 2, 3, 4, 5, 6, or 7 Corresponds to the period on the periodic table. ...
... Principal Quantum Number (n) Designates the energy level Tells how far away from the nucleus an electron is likely to be. Assigned values in order of increasing energy: n = 1, 2, 3, 4, 5, 6, or 7 Corresponds to the period on the periodic table. ...
Shapes of the Charge Clouds
... theory that quanta of energy are absorbed and emitted in whole-number units (in simple atoms!!) •In larger atoms it is assumed that the electrons do not interfere with each other but they probably do (at least a little bit) •4 Quantum Numbers must be used to describe the position of the electrons in ...
... theory that quanta of energy are absorbed and emitted in whole-number units (in simple atoms!!) •In larger atoms it is assumed that the electrons do not interfere with each other but they probably do (at least a little bit) •4 Quantum Numbers must be used to describe the position of the electrons in ...