Pressure of Gas given Most Probable Speed and Volume in 2D Calculator

✖Molar Mass is the mass of a given substance divided by the amount of substance.ⓘ Molar Mass [M_molar]			+10% -10%
✖The Most Probable Velocity is the velocity possessed by a maximum fraction of molecules at the same temperature.ⓘ Most Probable Velocity [C_mp]			+10% -10%
✖Volume of Gas for 1D and 2D is the amount of space that it occupies.ⓘ Volume of Gas for 1D and 2D [V_g]			+10% -10%

✖Pressure of Gas given CMS and V in 2Dis the force that the gas exerts on the walls of its container.ⓘ Pressure of Gas given Most Probable Speed and Volume in 2D [P_{CMS_V_2D}]

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Formula

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Pressure of Gas given Most Probable Speed and Volume in 2D

Formula

`"P"_{"CMS_V_2D"} = ("M"_{"molar"}*("C"_{"mp"})^2)/("V"_{"g"})`

Example

`"784.1425Pa"=("44.01g/mol"*("20m/s")^2)/("22.45L")`

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Pressure of Gas given Most Probable Speed and Volume in 2D Solution

STEP 0: Pre-Calculation Summary

Formula Used

Pressure of Gas given CMS and V in 2D = (Molar Mass*(Most Probable Velocity)^2)/(Volume of Gas for 1D and 2D)
P_{CMS_V_2D} = (M_molar*(C_mp)^2)/(V_g)
This formula uses 4 Variables

Variables Used

Pressure of Gas given CMS and V in 2D - (Measured in Pascal) - Pressure of Gas given CMS and V in 2Dis the force that the gas exerts on the walls of its container.
Molar Mass - (Measured in Kilogram Per Mole) - Molar Mass is the mass of a given substance divided by the amount of substance.
Most Probable Velocity - (Measured in Meter per Second) - The Most Probable Velocity is the velocity possessed by a maximum fraction of molecules at the same temperature.
Volume of Gas for 1D and 2D - (Measured in Cubic Meter) - Volume of Gas for 1D and 2D is the amount of space that it occupies.

STEP 1: Convert Input(s) to Base Unit

Molar Mass: 44.01 Gram Per Mole --> 0.04401 Kilogram Per Mole (Check conversion here)
Most Probable Velocity: 20 Meter per Second --> 20 Meter per Second No Conversion Required
Volume of Gas for 1D and 2D: 22.45 Liter --> 0.02245 Cubic Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

P_{CMS_V_2D} = (M_molar*(C_mp)^2)/(V_g) --> (0.04401*(20)^2)/(0.02245)

Evaluating ... ...

P_{CMS_V_2D} = 784.142538975501

STEP 3: Convert Result to Output's Unit

784.142538975501 Pascal --> No Conversion Required

FINAL ANSWER

784.142538975501 ≈ 784.1425 Pascal <-- Pressure of Gas given CMS and V in 2D

(Calculation completed in 00.004 seconds)

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Created by Prerana Bakli

University of Hawaiʻi at Mānoa (UH Manoa), Hawaii, USA

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< 20 Pressure of Gas Calculators

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STP

Go Volume at STP = Volume*(Temperature at STP/Temperature)*(Pressure/Pressure at STP)

Pressure of Gas Molecules in 2D Box

Go Pressure of Gas = (1/2)*((Number of Molecules*Mass of Each Molecule*(Root Mean Square Speed)^2)/Volume of Gas)

Pressure of Gas Molecules in 3D Box

Go Pressure of Gas = (1/3)*((Number of Molecules*Mass of Each Molecule*(Root Mean Square Speed)^2)/Volume of Gas)

Pressure of Gas Molecules in 1D Box

Go Pressure of Gas = ((Number of Molecules*Mass of Each Molecule*(Root Mean Square Speed)^2)/Volume of Gas)

Pressure of Gas given Compressibility Factor

Go Pressure of Gas = (Compressibility Factor*[R]*Temperature of Gas)/Molar Volume of Real Gas

Pressure of Gas given Most Probable Speed and Volume in 2D

Go Pressure of Gas given CMS and V in 2D = (Molar Mass*(Most Probable Velocity)^2)/(Volume of Gas for 1D and 2D)

Pressure of Gas given most probable Speed and Volume

Go Pressure of Gas given CMS and V = (Molar Mass*(Most Probable Velocity)^2)/(2*Volume of Gas for 1D and 2D)

Pressure of Gas given Average Velocity and Density in 2D

Go Pressure of Gas given AV and D = (Density of Gas*2*((Average Velocity of Gas)^2))/pi

Pressure of Gas given Average Velocity and Density

Go Pressure of Gas given AV and D = (Density of Gas*pi*((Average Velocity of Gas)^2))/8

Pressure of Gas given Root Mean Square Speed and Volume in 2D

Go Pressure of Gas = ((Root Mean Square Speed)^2)*Molar Mass/(2*Volume of Gas)

Pressure of Gas given Root Mean Square Speed and Volume

Go Pressure of Gas = ((Root Mean Square Speed)^2)*Molar Mass/(3*Volume of Gas)

Pressure of Gas given Root Mean Square Speed and Volume in 1D

Go Pressure of Gas = ((Root Mean Square Speed)^2)*Molar Mass/(Volume of Gas)

Pressure of Gas given most probable Speed and Density

Go Pressure of Gas given CMS and D = (Density of Gas*((Most Probable Velocity)^2))/2

Pressure of Gas given most probable Speed and Density in 2D

Go Pressure of Gas given CMS and D = (Density of Gas*((Most Probable Velocity)^2))

Pressure of Gas given Root Mean Square Speed and Density in 2D

Go Pressure of Gas = (1/2)*(Density of Gas*((Root Mean Square Speed)^2))

Pressure of Gas given Root Mean Square Speed and Density

Go Pressure of Gas = (1/3)*(Density of Gas*((Root Mean Square Speed)^2))

Pressure of Gas given Root Mean Square Speed and Density in 1D

Go Pressure of Gas = (Density of Gas*((Root Mean Square Speed)^2))

Pressure of Gas given Kinetic Energy

Go Pressure of Gas = (2/3)*(Kinetic Energy/Volume of Gas)

< 12 Important Formulae on 2D Calculators

Pressure of Gas given Average Velocity and Volume in 2D

Go Pressure of Gas given AV and V = (Molar Mass*2*((Average Velocity of Gas)^2))/(pi*Volume of Gas for 1D and 2D)

Mean Square Speed of Gas Molecule given Pressure and Volume of Gas in 2D

Go Root Mean Square Speed 2D = (2*Pressure of Gas*Volume of Gas)/(Number of Molecules*Mass of Each Molecule)

Most Probable Velocity of Gas given Pressure and Volume in 2D

Go Most Probable Velocity given P and V = sqrt((Pressure of Gas*Volume of Gas)/Molar Mass)

Molar Mass of Gas given Average Velocity, Pressure, and Volume in 2D

Go Molar Mass 2D = (pi*Pressure of Gas*Volume of Gas)/(2*((Average Velocity of Gas)^2))

Pressure of Gas given Most Probable Speed and Volume in 2D

Go Pressure of Gas given CMS and V in 2D = (Molar Mass*(Most Probable Velocity)^2)/(Volume of Gas for 1D and 2D)

Most Probable Velocity of Gas given Temperature in 2D

Go Most Probable Velocity given T = sqrt(([R]*Temperature of Gas)/Molar Mass)

Molar Mass of Gas given Root Mean Square Speed and Pressure in 2D

Go Molar Mass given S and V = (2*Pressure of Gas*Volume of Gas)/((Root Mean Square Speed)^2)

Pressure of Gas given Average Velocity and Density in 2D

Go Pressure of Gas given AV and D = (Density of Gas*2*((Average Velocity of Gas)^2))/pi

Most Probable Velocity of Gas given Pressure and Density in 2D

Go Most Probable Velocity given P and D = sqrt((Pressure of Gas)/Density of Gas)

Molar Mass given Most Probable Speed and Temperature in 2D

Go Molar Mass in 2D = ([R]*Temperature of Gas)/((Most Probable Velocity)^2)

Pressure of Gas given most probable Speed and Density in 2D

Go Pressure of Gas given CMS and D = (Density of Gas*((Most Probable Velocity)^2))

Most Probable Velocity of Gas given RMS Velocity in 2D

Go Most Probable Velocity given RMS = (0.7071*Root Mean Square Speed)

Pressure of Gas given Most Probable Speed and Volume in 2D Formula

Pressure of Gas given CMS and V in 2D = (Molar Mass*(Most Probable Velocity)^2)/(Volume of Gas for 1D and 2D)
P_{CMS_V_2D} = (M_molar*(C_mp)^2)/(V_g)

What are the postulates of kinetic theory of gases?

1) Actual volume of gas molecules is negligible in comparison to the total volume of the gas. 2) no force of attraction between the gas molecules. 3) Particles of gas are in constant random motion. 4) Particles of gas collide with each other and with the walls of the container. 5)Collisions are perfectly elastic. 6) Different particles of the gas, have different speeds. 7) The average kinetic energy of the gas molecule is directly proportional to the absolute temperature.

How to Calculate Pressure of Gas given Most Probable Speed and Volume in 2D?

Pressure of Gas given Most Probable Speed and Volume in 2D calculator uses Pressure of Gas given CMS and V in 2D = (Molar Mass*(Most Probable Velocity)^2)/(Volume of Gas for 1D and 2D) to calculate the Pressure of Gas given CMS and V in 2D, The Pressure of gas given most probable speed and volume in 2D formula is defined as the ratio of the molar mass and square of the most probable velocity to the volume of the gas. Pressure of Gas given CMS and V in 2D is denoted by P_{CMS_V_2D} symbol.

How to calculate Pressure of Gas given Most Probable Speed and Volume in 2D using this online calculator? To use this online calculator for Pressure of Gas given Most Probable Speed and Volume in 2D, enter Molar Mass (M_molar), Most Probable Velocity (C_mp) & Volume of Gas for 1D and 2D (V_g) and hit the calculate button. Here is how the Pressure of Gas given Most Probable Speed and Volume in 2D calculation can be explained with given input values -> 0.784143 = (0.04401*(20)^2)/(22.45).

FAQ

What is Pressure of Gas given Most Probable Speed and Volume in 2D?

The Pressure of gas given most probable speed and volume in 2D formula is defined as the ratio of the molar mass and square of the most probable velocity to the volume of the gas and is represented as P_{CMS_V_2D} = (M_molar*(C_mp)^2)/(V_g) or Pressure of Gas given CMS and V in 2D = (Molar Mass*(Most Probable Velocity)^2)/(Volume of Gas for 1D and 2D). Molar Mass is the mass of a given substance divided by the amount of substance, The Most Probable Velocity is the velocity possessed by a maximum fraction of molecules at the same temperature & Volume of Gas for 1D and 2D is the amount of space that it occupies.

How to calculate Pressure of Gas given Most Probable Speed and Volume in 2D?

The Pressure of gas given most probable speed and volume in 2D formula is defined as the ratio of the molar mass and square of the most probable velocity to the volume of the gas is calculated using Pressure of Gas given CMS and V in 2D = (Molar Mass*(Most Probable Velocity)^2)/(Volume of Gas for 1D and 2D). To calculate Pressure of Gas given Most Probable Speed and Volume in 2D, you need Molar Mass (M_molar), Most Probable Velocity (C_mp) & Volume of Gas for 1D and 2D (V_g). With our tool, you need to enter the respective value for Molar Mass, Most Probable Velocity & Volume of Gas for 1D and 2D and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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