Atoms and Elements Notes

Application of Quantum Theory 1- Particle in 1

... e. Node = the point where wave function passes through zero, or the position where probability of finding particle = 0 (No. of nodes = n-1) f. The probability of finding the particle between two points x 1 and x2 are different when n have small values, while as n increases (n >100) these 2 probabili ...

Wave-Particle Duality - the Principle of Complementarity The

... De Broglie’s hypothesis is the one associating a wavelength with the momentum of a particle. He proposed that only those orbits where the wave would be a circular standing wave will occur. This yields the same relation that Bohr had proposed. In addition, it makes more reasonable the fact that the e ...

Chemical Change

... The chemical properties of elements are related to the energy changes that take place when atoms lose, gain or share electrons to obtain a filled valence shell. ...

24. The Helium Atom

Light - UDChemistry

... eject electrons when exposed to light • Number of electrons ejected depends only on the intensity of light • No electrons ejected by light below certain frequency ...

Quarter Exam (Old Test)

... c. A compound consists of more than one phase. d. A compound can only be separated into its components by chemical means. ____ 29. What is the formula unit of sodium nitride? a. NaN b. NaN ...

Energy levels and atomic structures lectures

... Electrons from states with ni > 2 can return, initially, to the first-excited state (nf = 2), emitting one photon and then to the ground state emitting a second photon, with Eph = 10.2 eV, which is part of the Lyman series. Photons from transitions to the first-excited, (n = 2) state of the hydrogen ...

Trends in the periodic table - Brigham Young University

Wave Particle Duality - waiukucollegescience

... NCEA Level 3 Physics Problems - Wave Particle Duality Photoelectric Effect Acceleration due to gravity,g = 9.81 Nkg-1 Speed of light = 3.0 x 108ms-1 Planck's constant = 6.6 x 10-34Js Mass of electron = 9.1 x 10-31kg Electronic charge = 1.6 x 10-19C (1) When light is incident in a metal plate electro ...

Light problems

... 8.____ A quantum of energy is the a. frequency of electromagnetic energy given off by an atom. b. wavelength of electromagnetic energy gained by an atom. c. minimum quantity of energy that can be lost or gained by an atom. d. continuous spectrum of energy given off by an atom. 9.____ A form of energ ...

Define:

... 3. gas 4. chemistry 5. heterogenous mixture 6. homogeneous mixture 7. element 8. compound 9. law of conservation of mass 10. atom 11. atomic number 12. mass number 13. isotope 14. atomic mass 15. Hund’s Rule 16. Heisenburg uncertainty principle 17. Pauli exclusion principle 18. photon 19. period 20. ...

8.044s13 Excited State Helium, He

stationary state

... • When an electron is in one of the quantized orbits, it does not emit any electromagnetic radiation; thus, the electron is said to be in a stationary state. • The electron can make a discontinuous emission, or quantum jump, from one stationary state to another. During this transition it does emit r ...

Energy Levels and Light Absorption

... • If photons of the right energy are incident on a material, they can cause the promotion of electrons – excited states – The photons are absorbed by the molecules – If the sample is thick enough, the particular wavelengths can be completely absorbed – If white light is used, the absorption of the p ...

Chapter 6: Electronic Structure of Atoms

... explain how Einstein made use of it in his theory of the photoelectric effect. 2. A laser emits a wavelength of 987 nm. In what portion of the spectrum is this found? Its output energy is absorbed in a detector that measures a total energy of 0.52 J over 32 seconds. How many photons per second are b ...

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Chemistry Questions

... 4. What is the total number of electrons in the nucleus of an atom of potassium-42? 5. Which of the following elements have the greatest number of neutrons? a. 37Cl b. 39K 4. An atomic mass unit is defined as exactly a. 1/16 the mass of 12C atom b. 1/12 the mass of 12C atom 5. The total number of el ...

Quantum Numbers

PHY215: Study Guide for Introductory Quantum Mechanics Explain 1. Cathode Ray tubes, Cathode rays, and the generation of X‐rays.

... 2. The photoelectric effect, Compton Scattering, Planck’s constant: explain how light behaves as though it is made of particles. 3. The de Broglie wavelength, the Davisson‐Germer experiment: explain how electrons (and other particles) behave as though they are waves. 4. What the ...

The Bohr Model -The Quantum Mechanical Model

... of a ladder but are not equally spaced. ...

The Quantum Mechanical Model

... of a ladder but are not equally spaced. ...

Chemistry Final Study Guide

PracticeQuestions

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X-ray photoelectron spectroscopy

X-ray photoelectron spectroscopy (XPS) is a surface-sensitive quantitative spectroscopic technique that measures the elemental composition at the parts per thousand range, empirical formula, chemical state and electronic state of the elements that exist within a material. XPS spectra are obtained by irradiating a material with a beam of X-rays while simultaneously measuring the kinetic energy and number of electrons that escape from the top 0 to 10 nm of the material being analyzed. XPS requires high vacuum (P ~ 10−8 millibar) or ultra-high vacuum (UHV; P < 10−9 millibar) conditions, although a current area of development is ambient-pressure XPS, in which samples are analyzed at pressures of a few tens of millibar.XPS is a surface chemical analysis technique that can be used to analyze the surface chemistry of a material in its as-received state, or after some treatment, for example: fracturing, cutting or scraping in air or UHV to expose the bulk chemistry, ion beam etching to clean off some or all of the surface contamination (with mild ion etching) or to intentionally expose deeper layers of the sample (with more extensive ion etching) in depth-profiling XPS, exposure to heat to study the changes due to heating, exposure to reactive gases or solutions, exposure to ion beam implant, exposure to ultraviolet light.XPS is also known as ESCA (Electron Spectroscopy for Chemical Analysis), an abbreviation introduced by Kai Siegbahn's research group to emphasize the chemical (rather than merely elemental) information that the technique provides.In principle XPS detects all elements. In practice, using typical laboratory-scale X-ray sources, XPS detects all elements with an atomic number (Z) of 3 (lithium) and above. It cannot easily detect hydrogen (Z = 1) or helium (Z = 2).Detection limits for most of the elements (on a modern instrument) are in the parts per thousand range. Detection limits of parts per million (ppm) are possible, but require special conditions: concentration at top surface or very long collection time (overnight).XPS is routinely used to analyze inorganic compounds, metal alloys, semiconductors, polymers, elements, catalysts, glasses, ceramics, paints, papers, inks, woods, plant parts, make-up, teeth, bones, medical implants, bio-materials, viscous oils, glues, ion-modified materials and many others.XPS is less routinely used to analyze the hydrated forms of some of the above materials by freezing the samples in their hydrated state in an ultra pure environment, and allowing or causing multilayers of ice to sublime away prior to analysis. Such hydrated XPS analysis allows hydrated sample structures, which may be different from vacuum-dehydrated sample structures, to be studied in their more relevant as-used hydrated structure. Many bio-materials such as hydrogels are examples of such samples.

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X-ray photoelectron spectroscopy