CHEMISTRY IM 06 SYLLABUS

... Section B will consist of five compulsory structured questions; Section C will require candidates to choose two out of four long questions. Each section carries equal marks. The minimum mathematical requirements of the syllabus are the same as those for the SEC examination in Chemistry. Questions wi ...

Document

... Prove that, given a pair of normalized but not orthogonal functions ψ1 and ψ2, the function ψ3 = ψ2 – Sψ1 is orthogonal to ψ1 if S is the overlap integral of ψ1 and ψ2. Is ψ3 normalized? (Use the back of the page if necessary). ...

Exam I

... Problem 5 (15 pts, justify your answer): In a few years you take a job as a consulting physicist for Bob’s Particle Accelerator and Washing Machine Design Company. After you’ve been on the job for a few weeks, you attend a meeting where some of the engineers are fretting about static electric charge ...

PP Mass spectrometer and atoms

... student of J J Thomson, the man who discovered the electron. Aston used the instrument to show that there were different forms of the same element. We now call these isotopes. In a mass spectrometer, particles are turned into positive ions, accelerated and then deflected by an electric or magnetic f ...

Discrete emission spectra

... The energy packet emitted by the electron is transmitted as an electromagnetic wave of energy h.f. Because the color of light is determined by its frequency, it is eventually the transition of the electron that determines the color of the emitted light. If the electron goes from its 3rd vibration mo ...

Honors Chemistry

... (also called gram molecular mass - also called gram molecular weight) ...

McGill String Cosmology Workshop April 2005

... result in moduli trapping near enhanced symmetry points • These effects are stronger near the points with greater symmetry, where many particles become massless • This may explain why we live in a state with a large number of light particles and (spontaneously broken) symmetries ...

Identical Particles

Helical Particle Waves

... forces as follows from weakest to strongest: 1. The Gravitational Force that binds masses in the same universe. As gravitons emitted from a particle, they cause a reactive force in the opposite direction to their emission and away form their source. A mass in isolation would emit gravitons equally i ...

Slides - Sparks CH301

... and explanation of the photoelectric effect – From this also came quantization. ...

Key - Seattle Central College

... Democritus (462-370 B.C.): proposed that all matter was made up of tiny, indivisible particles called atomos (meaning “not to cut) or atoms. Empedocles (490-430 B.C.): suggested all matter was composed of four basic elements: air, water, fire, and earth. Aristotle (384-321 B.C.): accepted Empedocles ...

Einstein`s prediction

... In order to derive the frequency spectrum in a cavity filled with radiation that is consistent with experiment, Planck assumed that the energy  at each frequency component  is equal to  = s , where s is an integer. “We consider, however – and this is the essential point of the whole calculatio ...

powerpoint ch 5 notes electrons in atoms

... have are called energy levels. –A quantum of energy is the amount of energy required to move an electron from one energy level to another energy level. ...

Read Notes #1 - Faculty Website Listing

can be determined without changing the identity of matter

... - Pure substances can be further classified, depending on how easy it is to separate them by CHEMICAL PROCESSES ...

Document

... reasoning in developing his model Thomson’s model - protons and electron evenly distributed. No nucleus. Cathode Ray tube experiment. The cathode rays were attracted to a negatively charged plate. The atom must have negative charges (electrons). Atoms are electrically neutral and must possess positi ...

20040929114512301

... • Mott Insulator of 1 atom/site serves as a register. Two in-phase lattices trap two ground states of the atom [logical |0> and |1>]. ...

Chem 1A Objectives and Skills Checklists

... Use sketches to show how elements, compounds, and mixtures differ at the molecular level. Describe six different techniques for separating mixtures. Relate the names of elements to their international element symbols . ...

L 35 Modern Physics [1]

... The quantum concept and the Bohr Atom • Niels Bohr, a Danish physicist, used the quantum concept to explain the nature of the atom. • Recall that the orbiting electrons, according to classical ideas, should very quickly radiate away all of its energy • If this were so, then we would observe that at ...

Hwk Set #14 - Publisher`s solutions

... Assess: This answer is one-fourth of the answer in Example 41.9, which makes sense. An electron would emit a 1200 nm photon in any n → n − 1 jump in this quantum harmonic oscillator; not just the 3 → 2 jump. ...

Carriers of negative electricity J.

... by an electrified body as well as by a magnet. In the earlier experiments made on this point no such deflection was observed. The reason of this has been shown to be that when cathode rays pass through a gas they make it a conductor of electricity, so that if there is any appreciable quantity of gas ...

200 Ways to Pass the Chemistry

... 13. Dalton’s model of the atom was a solid sphere of matter that was uniform throughout. 14. J.J. Thompson discovered the electron and developed the “plum-pudding” model of the atom. ...

Atoms and Molecules

... A gas collected on a 27.5 C day when the atmospheric pressure was 1.12 atm had a volume of 252.4 mL. A day later when the temperature was 25.0 C, that volume had changed to 248.8 mL. What was the atmospheric pressure on the second day? ...

E k

... Potential energy total electron energy Kcy  0.85 (2/a); Longitudinal Effective Mass m* (or ml*)= 0.92 mo Transverse Effective Mass m* (or mt*)= 0.197 mo a: Lattice Constant ...

Slide

... In order to derive the frequency spectrum in a cavity filled with radiation that is consistent with experiment, Planck assumed that the energy  at each frequency component  is equal to  = s , where s is an integer. “We consider, however – and this is the essential point of the whole calculatio ...

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Atomic theory

In chemistry and physics, atomic theory is a scientific theory of the nature of matter, which states that matter is composed of discrete units called atoms. It began as a philosophical concept in ancient Greece and entered the scientific mainstream in the early 19th century when discoveries in the field of chemistry showed that matter did indeed behave as if it were made up of atoms.The word atom comes from the Ancient Greek adjective atomos, meaning ""uncuttable"". 19th century chemists began using the term in connection with the growing number of irreducible chemical elements. While seemingly apropos, around the turn of the 20th century, through various experiments with electromagnetism and radioactivity, physicists discovered that the so-called ""uncuttable atom"" was actually a conglomerate of various subatomic particles (chiefly, electrons, protons and neutrons) which can exist separately from each other. In fact, in certain extreme environments, such as neutron stars, extreme temperature and pressure prevents atoms from existing at all. Since atoms were found to be divisible, physicists later invented the term ""elementary particles"" to describe the ""uncuttable"", though not indestructible, parts of an atom. The field of science which studies subatomic particles is particle physics, and it is in this field that physicists hope to discover the true fundamental nature of matter.

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Atomic theory