What is Gas: Definition and 1000 Discussions

Gas is one of the four fundamental states of matter (the others being solid, liquid, and plasma). A pure gas may be made up of individual atoms (e.g. a noble gas like neon), elemental molecules made from one type of atom (e.g. oxygen), or compound molecules made from a variety of atoms (e.g. carbon dioxide). A gas mixture, such as air, contains a variety of pure gases. What distinguishes a gas from liquids and solids is the vast separation of the individual gas particles. This separation usually makes a colorless gas invisible to the human observer. The interaction of gas particles in the presence of electric and gravitational fields are considered negligible, as indicated by the constant velocity vectors in the image.
The gaseous state of matter occurs between the liquid and plasma states, the latter of which provides the upper temperature boundary for gases. Bounding the lower end of the temperature scale lie degenerative quantum gases which are gaining increasing attention.
High-density atomic gases super-cooled to very low temperatures are classified by their statistical behavior as either Bose gases or Fermi gases. For a comprehensive listing of these exotic states of matter see list of states of matter.

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  1. P

    Constant RPM of gas compressor

    I would like to clear out my understanding of gas compressor. If it is moving at constant RPM, is it mean that it can only allow same volumetric flow rate all the time? So the power will remain constant too, (P=VI) then voltage and current will varies. My investigation is to find why there is...
  2. rogerk8

    Understanding Gas Pressure: Exploring the Mechanics and Energy of Gases

    Hi! I wonder what gas pressure really is. This I have learned from Wikipedia: 1) Pressure is a scalar (which means it has no direction). 2) Since a system under pressure has potential to perform work on its surroundings, pressure is a measure of potential energy stored per unit volume. 3)...
  3. C

    First law of thermodynamics at constant volume (ideal gas)

    If c_v is the specific heat at constant volume, authors substitute this into the first law as follows: c_v d\theta + pdv = dq How can one deduce that equation for any case? Since the specific heat at constant volume is used, the equation would be valid only where there is no expansion i.e...
  4. G

    Can a car's reaction to gas pedal be said to be stable ?

    As per control theory, if a bounded input produces a bounded output then a system can be said to be stable. So assuming that I press my cars gas pedal such that it reaches a fixed position, then the reaction of my car would be to reach a corresponding velocity, and assuming the road to be even...
  5. S

    Diffusivity of Gasses -- Average Collision Diameter & Integral

    https://en.wikipedia.org/wiki/Mass_diffusivity http://webwhiteboard.com/#4j3pn87a In the equation specified in Wikipedia for gases. http://imagebin.ca/v/2A0LjLEf0qyT The Average Collision Diamteter & Integral are said to be tabulated and there is a book referenced. Is it possible to get an...
  6. T

    Gas Law Calculation: Pressure Effects of Temp from 17-22C

    [Moderator's note: Recategorized thread to "Basic".] I'm having an issue at work that I think may be down to temperature. I have a sealed chamber that is 1m X 1m X 1.5m. The chamber has to be pressure tested but the results are all over the show. The only variable is temperature. So my...
  7. Jehannum

    I need a method of estimating the volume of a gas container

    In the gas industry you often need to know the installation volume of a system, i.e. the amount of gas it contains in the pipework, fitting and meters. If part of the installation is buried or inaccessible this is difficult to estimate. My concept is to estimate installation volume by...
  8. Blanchette

    Gas Pressure: Molecule Motion & Temp Effects

    1. I need to describe the pressure of a gas in terms of the motion of its molecules, and the effect of a change of temperature on the pressure of a gas at constant volume.2. I have looked these up in the internet, but every page says something different. I don't really understand what the second...
  9. C

    Gas chromatography question -- instrument not turning back on....

    My gas chromatography instrument ran out of air while cooling down and now it won't turn on, nor the computer it is hooked up to? Can this be fixed?
  10. B

    Confused - Pressure in a canister?

    A manufacturer quotes a standard CO2 canister contains 16g of CO2 at a volume of 20cm^3. So I need to calculate the pressure in the canister... Using ideal gas law P = nRT/V n = 0.364mol (16 of co2) R = 8.314 J/Kmol (universal gas constant) T = 294k (gas is at room temp 21 deg C) V = 20cm3...
  11. R

    Does 1 mole of all gas exert equal pressure

    1 mole of all gas has equal number of molecules irrespective of their size. So I just wanted to know when 1 mole of molecules exerts pressure on the wall of a container, will it be same for all gases, irrespective of their molecules sizes.
  12. P

    Cylinder of gas raised to vertical

    Homework Statement A thin, closed, insulated cylinder of length L, filled with ideal gas (temperature T, mass M, total amount 1 mole) lies on a table. It is very gently raised to the vertical, after which equilibrium is reestablished. Does the entropy change? What is the temperature change (to...
  13. R

    What Happens When You Dissolve a Gas in Water?

    I have a few simple questions about the process of dissolving a gas in water, if anyone could give me any help it would be appreciated. 1. How do I know the gas has dissolved? i.e. if I "bubble" gas into the liquid how do I know it hasn't just "bubbled" out? Or would this only occur once the...
  14. G

    Work needed to expand a very heavy gas under high pressure

    Hi there, not sure if this is the right sub-forum. I hope so. 1. Homework Statement This is the known data: A isothermal process in the ascending conduit (like a chimney) of a closed-loop circuit, which is thermally insulated from the atmosphere, and in no contact with the air. This is the...
  15. A

    Temperature in Constant volume gas thermometer.

    In the constant volume gas thermometer, T (°c)=[P(T)-P(f)]×100/[P(b)-P(f)] (P(T) means gas pressure at T°c P(b) and P(f) for the water's boiling point and freezing point) Is it right?
  16. 0

    Ideal Gas Law Equilibrium Requirements

    It is well known that the ideal gas law applies only to an ideal gas, one consisting of particles infinitesimal in size and exhibits no interactions between the particles. Considering an ideal gas, is the ideal gas law valid under non-equilibrium conditions? For example, does the ideal gas law...
  17. HelloCthulhu

    Temperature of gas during water electrolysis

    I know I can use the specific heat capacity formula to find the temperature of the water during electrolysis as long as I know the mass, specific heat constant of water and joules added beforehand: But I'm not sure how I could find the temperature of the gas produced. If the pressure was...
  18. Tam Le

    Gas State of Liquid Substances: Exploring Water Vapor

    Is it simply the gaseous state of a liquid substance? For instance, water vapor, in this context, would be the gas state of water after having transitioned from a liquid state.
  19. Z

    Can a Steel Vessel Contain Liquid Hydrogen at 15,000 PSI and 25C?

    I've read a fews post about liquid hydrogen boil off, but could use a bit more clarification; insight on the following thought experiment would be really helpful: What happens if I take a 1 L steel vessel, put 1 L of liquid H2 into it, seal it off, and let it sit in a room at 25C? The density...
  20. P

    Current density free electron gas

    Hello, I am studying transport in the free electron gas model and I don't understand how to compute the average of the electron density current. We are given the hamiltonian ## H=\int \psi^\dagger(r,t)(-\frac{\hbar^2\nabla^2}{2m}+e\vec{E}\cdot\vec{r})\psi(r,t)## where the ##psi## operator is...
  21. @PinkGeology

    Ideal gas law: can you use it to find P during exsolution?

    If you shake up a bottle of soda and it gets slightly larger because the disturbed gas in solution is trying to expand but cannot, could you use the difference in (THE SMALL AMOUNT THE BOTTLE ACTUALLY SWELLED) and the (POTENTIAL AMOUNT THE GAS WOULD SWELL IF NOT CONTAINED) to determine the...
  22. K

    How Much Nitrogen Gas and Pressure Are Needed for a 250°C Temperature Gauge?

    Hi, I Have one Temperature gauge with 2Meter Cpillary. Range is 0-250Deg Centigarde. it was field with Nitrogen gas immersion length (sensing element) was 100mm in the process. How much gas should field to get the 250Deg Centigarde temperature. and how much pressure is required to field the...
  23. B

    Can a Leaking Argon Gas Line Draw in Air and Create a Mixture?

    I have an argon line used for atomization and backfilling a VIM melting chamber. If there is a leak on the argon line (at a fitting, valve, etc), will this leak actually draw in air when gas is turned on and flowing through pipe creating a mixture of argon and air?
  24. L

    Calculating Mass in a Gas Stoichiometry Problem

    Hi all, While studying for my exam (and doing review questions) I came across a problem that I couldn't solve: 5. Zirconium metal and chlorine gas react to form zirconium (IV) chloride Zr + 2Cl2 = ZrCl4 a) What volume of chlorine gas must be used at 350 degrees Celsius and 50 kPa to produce...
  25. Chestermiller

    Reversible Vs Irreversible Gas Compression/Expansion Work - Comments

    Chestermiller submitted a new PF Insights post Reversible Vs Irreversible Gas Compression/Expansion Work Continue reading the Original PF Insights Post.
  26. K

    Energy source for long-term constant gas pressure?

    Gas pressure in a closed chamber at constant temperature will last forever, unless leaking or chemical reactions occur. Examples are methane in underground gas reservoirs that are hundreds of thousands of years old. Gases stored in bottles. Pressure comes from the gas atoms (with velocity)...
  27. P

    Temperature of a gas in a container

    A rectangular (simplified) container with rigid surfaces, has a certain mass of ideal gas within it, and it accelerates in free space, undergoing rectilinear motion. There are no dissipative forces. Now, since the container moves, its kinetic energy increases, and since the temperature of the...
  28. R

    Calculation for knowing duration of gas cylinder

    I know the total volume of a gas cylinder, the pressure in it, and the outlet pressure that needs to be maintained. The flow rate is also known. How should I calculate the total duration the cylinder will last? Also, what should vary if the cylinder is a liquidified gas cylinder?
  29. M

    Gas consumption vs oven temperature setting point

    Haw can I calculate/estimate the potential gas consumption in an industrial oven after the reduction of the temperature setting point?
  30. J

    Solving Ideal Gas Problem: Find # of Balloons Filled

    Homework Statement A gas cylinder contains 4x10^4 cm cubed of hydrogen at a pressure of 2.5x10^7 Pa and a temperature of 290 K. The cylinder is used to foll balloons. Each balloon contains 7.24x10^3 cm cubed of hydrogen at a pressure of 1.85x10^5 and a temp of 290K when full. Find the number...
  31. M

    Find the molar specific heat for each gas.

    Homework Statement A mixture of two ideal gases, the first one atomic and the second two atomic are put in normal conditions in a calorimeter with volume 1 liter hermetically closed. After it is given 10J thermal energy the mixture temperature is grown 14.2 K. Find the molar specific heat for...
  32. M

    Find the growth of temperature of the gas

    Homework Statement A mass of 3 mole gas is heated in a constant pressure of 1.5 atm, expanding from 40 litre to 60 litre. Find the temperature growth. Homework Equations V1/V2=T1/T2. The Attempt at a Solution I thought to write V1/V2=T1/T2. But I don't know T1. The answer is 121 K in my book.
  33. EinsteinKreuz

    Sagittarius A*: the riddle of gas cloud G2

    So perhaps I'm not the only one here on PF who's heard about this .That said, besides the gas cloud G2 concealing a low-mass star, I cannot help but wonder what azimuthal angle G2 made its closest approach to the supermassive black hole Sagittarius A*. The reason this is relevant is because...
  34. P

    I need some kind of propellant gas for an experiment

    For the past year or so, I've been experimenting with Isobutane. I used to get it in relatively cheap canisters of r600a from amazon.com and AliExpress, and that worked fine. Now, however, AliExpress has NO purchase options for r600a, and amazon.com will not ship it to the US, even though they...
  35. S

    Average kinetic energy of particles of an ideal gas

    Homework Statement So first the task: Determine the average value of the kinetic energy of the particles of an ideal gas at 0.0 C and at 100 C (b) What is the kinetic energy per mole of an Ideal gas at these temperatures. I took the above right out of the pdf we got from our professor. I know...
  36. Robsta

    Interferometer to measure refractive index of a gas

    Homework Statement I've uploaded a diagram showing a two beam interferometer that can be used to monitor changes of refractive index in a gas cell. it is illuminated with monochromatic light of wavelength λ. The light is linearly horizontally polarised. The two polarizing beam splitters (PBS)...
  37. C

    Substitute a gas motor with electric motor

    I'm sure that this has been posted before but... I want to substitute a gas motor in my 12kw Generac home backup generator with an electric motor 48-volt 4hp@4000 rpm series.. I would run this electric motor from the grid and power my home from this newly design generator.
  38. A

    Casimir Force for a Trapped Bose Gas in d-dimension

    Currently found a paper which calculates Casimir Force of a trapped Bose gas in d-dimension. But what is the use of calculating Casimir Force of a Bose gas greater than 3 dimension? Any example where this calculation might be helpful?
  39. B

    Calculating Gas Pressure: Solving for Pressure in a Variable Volume

    Homework Statement Gas occupies 2m^3 at a pressure of 100kPa. What is the pressure when the volume is 1.5m^3 and the temprature is unchanged? Homework Equations p=nRT/V The Attempt at a Solution As a logic conclusion i took 1.5/2x100 and got 75 but 175 is not the answer.. The answer is...
  40. M

    Calculating temp change releasing a compressed gas

    Hello, I understand when you release a compressed gas generally it comes out cooler than atmosphere. But here are my questions: When you fill the container, the gas warms up as the pressure builds. Generally it takes a long time to compress and I believe the temperature of the gas when it's...
  41. S

    Electron-hole gas density in different materials

    If we connect a two metals with different Fermi levels electrons will start to flow from metal with higher Fermi level to a lower one. Untill metal with lower Fermi level will get negatively charged and the process will stop. But what if we connect a two materials with different Fermi levels...
  42. T

    Gas Dynamic to Acoustic wave equation

    Homework Statement Derive from the formulas ##\frac{D^\pm}{Dt}(u \pm F) = 0## where ##\frac{D^\pm}{Dt} = \frac{\partial}{dt} + ( u \pm c) \frac{\partial}{\partial x}## the one-dimensional wave equation in the acoustical limit. \begin{cases} u << c\\ c \approx c0 = const\\ F =...
  43. goonking

    Ideal gas law in terms of density

    Homework Statement Homework Equations PV=nRT The Attempt at a Solution not sure if this is the right approach plugging into -ρg gives us -PMg/RT = dP/dy now we have to integrate both sides to find P?
  44. JosephLa

    How is centrifugal force created in a cloud of gas in space?

    First, may I apologize in advance if this question is in the wrong section of the forums. Given a cloud of mixed gasses and rocky material, how is spin created when a star is born? I will also give the cloud of gas a random order of movement prior to star formation. Can the physics for the...
  45. T

    Can ponderomotive force induce motion in neutral gas?

    Ponderomtive force is well known phenomenon, able to accelerate particles of all charges in plasma, but what about neutral gas? If we omit thermodynamics for a while and consider a perfectly non-ionizable gaseous dielectric, would polarisation be enough to induce motion in it? Thanks for...
  46. R

    A heating element in a container with low pressure gas?

    This is just a qualitative question but feel free to show an equation if possible. Basically if you have a container with a heating element, let's say 500 W with a temperature of 2500 Kelvins and inside this box is a low pressure ideal gas, something like 1/100 of an atmosphere. Also imagine...
  47. R

    Pressure and force in a cylinder

    A cylinder containing oxygen gas O2 has a piston that can move unfazed by friction. The piston has a diameter of d = 16cm. The oxygen gas has a temp of 40,0 degrees Celsius and a pressure of 145kPa. The pressure outside the cylinder is 101kPa. The piston is held in a stationary position s =...
  48. S

    Why Is Time Represented as 2d/v in Kinetic Gas Theory Calculations?

    To obtain force from momentum we use the formula change in momentum/time. The time in the equation refers to the amount of time the force is exerted on the gas molecules. So when considering the kinetic theory of gases we are taught that F ∝ change in momentum/ time so F ∝ 2mv/(2d/v) and hence...
  49. R

    Role of TiO2 in Gas sensor Device

    Good day, TiO2 have many possible application in material science, one of this is in Memory device, base on some literature TiO2 had a good chemical stability at high temp, so this is one reason why TiO2 is best candidate for this application, but beside of that, what other properties of TiO2...
  50. D

    Compressing ideal gas, show no heat exchange

    Homework Statement An ideal monatomic gas is contained in a cubic container of size ##L^3##. When ##L## is halved by reversibly applying pressure, the root mean square ##x##-component of the velocity is doubled. Show that no heat enters of leaves the system.Homework Equations ##dU = dQ -pdV##...
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