Chapter 17 Star Stuff

... occupy the same state at the same time. •As a result, they cannot be completely crushed without being forced into each other, so they exert a force outward acting against gravity. •This is called degeneracy pressure. ...

The Periodic Table Trends

... with elements as punch-lines ...

Mole Concept Balancing - The Gurukul Institute

... 4. 0.005 cm thick coating of silver is deposited on plate of 0.5 m2 area. Calculate the number of silver atoms deposited on the plate. Atomic mass of Ag is 108 and its density is 7.9 g/cc. 5. What volume of CCI4 having density 1.5 g/cc contains 1 × 1025 chlorine atoms. 6. A complex of iron contains ...

Physics Final Exam Review

... b. It’s weight is more on the moon c. Acceleration due to gravity is greater on the moon d. Acceleration due to gravity is smaller on the moon 43. ______ If no friction acts on a diver during a dive, which of the following statements is true? a. The potential energy at the beginning is equal to the ...

Final Exam Practice Questions for General Chemistry NOTICE TO

... 18. Which ion(s) is/are spectator ions in the formation of a precipitate of BaSO4 via combining aqueous solutions of BaI2 and K2SO4? a) Ba2+ only b) K+ only c) SO42- and I– d) K+ and I– e) Ba2+ and SO42– 19. Calculate the number of oxygen atoms in 2.00 moles of Mn2O7. a) 0.009 atoms b) 8.43 x 1024 a ...

Solutions!

... Shows the relationship of grams of solute that may be dissolved at various temperatures. ...

PROPERTIES OF SOLUTIONS

...  Typically water moves through but not larger molecules or ions  Osmosis is the net movement of a solvent from an area of low solute concentration to an area of high solute concentration.  Osmotic pressure, , is the pressure required to prevent osmosis  Osmotic pressure obeys a law similar to t ...

GAS PRACTICE A sample of an ideal gas is cooled from 50.0 °C to

... (D) The average kinetic energy of the hydrogen molecules is the same as the average kinetic energy of the oxygen molecules. (E) The average speed of the hydrogen molecules is the same as the average speed of the oxygen molecules. 14. At 25 °C, a sample of NH3 (molar mass 17 grams) effuses at the rat ...

Equation of State of Dense Matter and the Upper Mass Limit for

... the collision of Au + Au at 1 GeV!Nucleon, densities of 3 - 4po, where Po is nuclear matter density, are formed . As we shall show, in conventional descriptions the equation of state is dominated at these high densities by the repulsive vector interaction between nucleons, resulting in an extremely ...

Lecture 3 (Dec.7) - University of Manitoba Physics Department

... Pumping up a tire (approximately constant temperature and volume): Adding more gas molecules increases the pressure. ...

The An Introduction to Physical Properties of Matter

... Daily Participation (~10%): The following are behaviors that will help you earn participation points: ...

Review Sheet

... 3. How and why do the effective nuclear charge, atomic radius, ionization energy and electron affinity change across a period and down a group? If given a set of elements, rank them according to these parameters and explain why this trend occurs. 4. Predict the relative atomic radii of atoms and ion ...

Chemistry (B) Final Exam Study Guide 3

... c. liquid water at 373 K b. liquid water at 90 C d. ice at 0 C ____ 103. What is the key difference between a liquid and a gas? a. intermolecular attractions c. average kinetic energy b. the ability to flow d. the motion of their particles ____ 104. Which states of matter can flow? a. gases only c. ...

Chapter 5 Gases Gases Pushing Measuring Air Pressure

... pressure and temperature, chemists have agreed on a set of conditions to report our measurements so that comparison is easy. We call these standard conditions. Called STP (standard temperature and pressure) ...

Chemistry Claims Unit 1: Alchemy: Matter, Atomic Structure, and

...  Hydrogen/Carbon bonds are hard/easy bonds to break.  Steam engines/Internal combustion engines are the best way to convert chemical energy to work.  [Example element] is more/less active than [example element].  Pairing Tin and Gold/Iron and Lead will produce the most/least amount of energy.  ...

Chemistry Fall Final Study Guide Concepts

... a. 25 °C = ___298___K b. 110 °C = ___383___K Pressure Conversion units 1 atm = 101.3 kPa = 101,325 Pa = 760 mm Hg = 760 torr = 14.7 lb/in 2 (psi) 35. The air pressure inside a submarine is 0.54 atm. What would be the height in millimeters of mercury (Hg) by this pressure? 0.54 atm x 760 mmHg = 410 m ...

Standard answers: 1 Basic concepts, Fuels, alkanes and alkenes

... 34. Features of an equilibrium  Closed system  Dynamic 35. What can be said about the forward and reverse reactions at equilibrium  The rate of the forward and reverse reactions are the same 36. Effect of pressure on equilibrium  Increasing P moves the eqm to the side with fewer moles of gas (an ...

10 Vapor Pressure - Blue Valley Schools

... 3. Prepare the Flask, Temperature Probe, and Gas Pressure Sensor for data collection. a. Attach the ~20cm length of clear, colorless tubing to the Gas Pressure Sensor. Do not over-tighten. Turning by clamping the nylon Luer-Lok between extended index finger and thumb will limit the amount of force y ...

5 – Stellar Structure I

... We can obtain a lower bound on the RHS by noting: at all points inside the star r < rs and hence 1/r > 1/rs ...

phase diagrams and IMF

... 1.) Explain why the formation of solid and/or liquid phase(s) would be favored under conditions of: Explain using the ideas of kinetic energy (molecular motion), how close together molecules are/could be, ability to be attracted to its neighbor: ...

AST1100 Lecture Notes

... When the inner core consisting mainly of neutrons becomes degenerate, the collapse is suddenly stopped, the core bounces back and an energetic shock wave is generated. This shock wave travels outwards from the core but is blocked by the massive and dense ’iron cap’, the outer core, which is in free ...

week-1 - OSU Chemistry

... Consider now the application of these ideas to chemical reactions. eg, 2 NaN3 (s) Æ 2 Na + 3 N2 (g) Given the mass of sodium azide that reacts, the number of moles of nitrogen gas generated may be calculated. From this, the volume may be calculated at a given temperature and pressure. ...

isuintroduction

... A mole contains approximately 6.022 x 1023 particles, no matter what the volume, pressure, or temperature is.(2) For instance, 1 mol (which is the abbreviation of the mole) of a gas at 3000 K (K is the abbreviation of the Kelvin temperature scale) contains 6.02 x 1023 particles, while 1 mol of the ...

7B35.75 Plasma Tubes

... gases, such as argon and neon. A low pressure is necessary so that the gases can be ionized easier, and inert gases must be used so that there is no reaction between the gas and the metal electrode. When the power adapter is connected to the plasma ball, a high voltage, high frequency power supply c ...

Chapter 2

... Science Has Some Limitations 1. Particular hypotheses, theories, or laws have a high probability of being true while not being absolute 2. Bias can be minimized by scientists ...

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Degenerate matter

Degenerate matter in physics is a collection of free, non-interacting particles with a pressure and other physical characteristics determined by quantum mechanical effects. It is the analogue of an ideal gas in classical mechanics. The degenerate state of matter, in the sense of deviant from an ideal gas, arises at extraordinarily high density (in compact stars) or at extremely low temperatures in laboratories. It occurs for matter particles such as electrons, neutrons, protons, and fermions in general and is referred to as electron-degenerate matter, neutron-degenerate matter, etc. In a mixture of particles, such as ions and electrons in white dwarfs or metals, the electrons may be degenerate, while the ions are not.In a quantum mechanical description, free particles limited to a finite volume may take only a discrete set of energies, called quantum states. The Pauli exclusion principle prevents identical fermions from occupying the same quantum state. At lowest total energy (when the thermal energy of the particles is negligible), all the lowest energy quantum states are filled. This state is referred to as full degeneracy. The pressure (called degeneracy pressure or Fermi pressure) remains nonzero even near absolute zero temperature. Adding particles or reducing the volume forces the particles into higher-energy quantum states. This requires a compression force, and is made manifest as a resisting pressure. The key feature is that this degeneracy pressure does not depend on the temperature and only on the density of the fermions. It keeps dense stars in equilibrium independent of the thermal structure of the star.Degenerate matter is also called a Fermi gas or a degenerate gas. A degenerate state with velocities of the fermions close to the speed of light (particle energy larger than its rest mass energy) is called relativistic degenerate matter.Degenerate matter was first described for a mixture of ions and electrons in 1926 by Ralph H. Fowler, showing that at densities observed in white dwarfs the electrons (obeying Fermi–Dirac statistics, the term degenerate was not yet in use) have a pressure much higher than the partial pressure of the ions.

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Degenerate matter