Average Velocity of Gas given Root Mean Square Speed in 2D Solution

STEP 0: Pre-Calculation Summary
Formula Used
Average Velocity given RMS = (0.8862*Root Mean Square of Speed)
vavg_RMS = (0.8862*CRMS_speed)
This formula uses 2 Variables
Variables Used
Average Velocity given RMS - (Measured in Meter per Second) - Average Velocity given RMS is defined as the mean of all different velocities.
Root Mean Square of Speed - (Measured in Meter per Second) - The Root Mean Square of Speed is the value of the square root of the sum of the squares of the stacking velocity values divided by the number of values.
STEP 1: Convert Input(s) to Base Unit
Root Mean Square of Speed: 10.5 Meter per Second --> 10.5 Meter per Second No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
vavg_RMS = (0.8862*CRMS_speed) --> (0.8862*10.5)
Evaluating ... ...
vavg_RMS = 9.3051
STEP 3: Convert Result to Output's Unit
9.3051 Meter per Second --> No Conversion Required
FINAL ANSWER
9.3051 Meter per Second <-- Average Velocity given RMS
(Calculation completed in 00.020 seconds)

Credits

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University of Hawaiʻi at Mānoa (UH Manoa), Hawaii, USA
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9 Average Velocity of Gas Calculators

Terminal Velocity given Angular Velocity
Go Terminal Velocity given Angular Velocity = (Mass of Particle*Radius of molecule*(Angular Velocity)^2)/(6*pi*Dynamic Viscosity*Radius of Spherical Particle)
Average Velocity of Gas given Pressure and Volume in 2D
Go Average Velocity given P and V = sqrt((pi*Pressure of Gas*Volume of Gas)/(2*Molar Mass))
Average Velocity of Gas given Pressure and Volume
Go Average Velocity given P and V = sqrt((8*Pressure of Gas*Volume of Gas)/(pi*Molar Mass))
Average Velocity of Gas given Temperature in 2D
Go Average Velocity given Temperature = sqrt((pi*[R]*Temperature of Gas)/(2*Molar Mass))
Average Velocity of Gas given Temperature
Go Average Velocity of Gas = sqrt((8*[R]*Temperature of Gas)/(pi*Molar Mass))
Average Velocity of Gas given Pressure and Density in 2D
Go Average Velocity given P and D = sqrt((pi*Pressure of Gas)/(2*Density of Gas))
Average Velocity of Gas given Pressure and Density
Go Average Velocity given P and D = sqrt((8*Pressure of Gas)/(pi*Density of Gas))
Average Velocity of Gas given Root Mean Square Speed in 2D
Go Average Velocity given RMS = (0.8862*Root Mean Square of Speed)
Average Velocity of Gas given Root Mean Square Speed
Go Average Velocity given RMS = (0.9213*Root Mean Square of Speed)

11 Average velocity of gas and Acentric factor Calculators

Terminal Velocity given Angular Velocity
Go Terminal Velocity given Angular Velocity = (Mass of Particle*Radius of molecule*(Angular Velocity)^2)/(6*pi*Dynamic Viscosity*Radius of Spherical Particle)
Average Velocity of Gas given Pressure and Volume in 2D
Go Average Velocity given P and V = sqrt((pi*Pressure of Gas*Volume of Gas)/(2*Molar Mass))
Average Velocity of Gas given Pressure and Volume
Go Average Velocity given P and V = sqrt((8*Pressure of Gas*Volume of Gas)/(pi*Molar Mass))
Average Velocity of Gas given Temperature in 2D
Go Average Velocity given Temperature = sqrt((pi*[R]*Temperature of Gas)/(2*Molar Mass))
Average Velocity of Gas given Temperature
Go Average Velocity of Gas = sqrt((8*[R]*Temperature of Gas)/(pi*Molar Mass))
Average Velocity of Gas given Pressure and Density in 2D
Go Average Velocity given P and D = sqrt((pi*Pressure of Gas)/(2*Density of Gas))
Average Velocity of Gas given Pressure and Density
Go Average Velocity given P and D = sqrt((8*Pressure of Gas)/(pi*Density of Gas))
Acentric Factor given Actual and Critical Saturation Vapor Pressure
Go Acentric Factor VP = -log10(Saturation Vapour Pressure/Critical saturation vapour pressure)-1
Acentric Factor
Go Acentric Factor VP = -log10(Reduced saturation vapour pressure)-1
Average Velocity of Gas given Root Mean Square Speed in 2D
Go Average Velocity given RMS = (0.8862*Root Mean Square of Speed)
Average Velocity of Gas given Root Mean Square Speed
Go Average Velocity given RMS = (0.9213*Root Mean Square of Speed)

Average Velocity of Gas given Root Mean Square Speed in 2D Formula

Average Velocity given RMS = (0.8862*Root Mean Square of Speed)
vavg_RMS = (0.8862*CRMS_speed)

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 Average Velocity of Gas given Root Mean Square Speed in 2D?

Average Velocity of Gas given Root Mean Square Speed in 2D calculator uses Average Velocity given RMS = (0.8862*Root Mean Square of Speed) to calculate the Average Velocity given RMS, The Average velocity of gas given root mean square speed in 2D is the arithmetic mean of the velocities of different molecules of a gas at a given temperature in 2 dimensions. Average Velocity given RMS is denoted by vavg_RMS symbol.

How to calculate Average Velocity of Gas given Root Mean Square Speed in 2D using this online calculator? To use this online calculator for Average Velocity of Gas given Root Mean Square Speed in 2D, enter Root Mean Square of Speed (CRMS_speed) and hit the calculate button. Here is how the Average Velocity of Gas given Root Mean Square Speed in 2D calculation can be explained with given input values -> 9.3051 = (0.8862*10.5).

FAQ

What is Average Velocity of Gas given Root Mean Square Speed in 2D?
The Average velocity of gas given root mean square speed in 2D is the arithmetic mean of the velocities of different molecules of a gas at a given temperature in 2 dimensions and is represented as vavg_RMS = (0.8862*CRMS_speed) or Average Velocity given RMS = (0.8862*Root Mean Square of Speed). The Root Mean Square of Speed is the value of the square root of the sum of the squares of the stacking velocity values divided by the number of values.
How to calculate Average Velocity of Gas given Root Mean Square Speed in 2D?
The Average velocity of gas given root mean square speed in 2D is the arithmetic mean of the velocities of different molecules of a gas at a given temperature in 2 dimensions is calculated using Average Velocity given RMS = (0.8862*Root Mean Square of Speed). To calculate Average Velocity of Gas given Root Mean Square Speed in 2D, you need Root Mean Square of Speed (CRMS_speed). With our tool, you need to enter the respective value for Root Mean Square of Speed and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Average Velocity given RMS?
In this formula, Average Velocity given RMS uses Root Mean Square of Speed. We can use 2 other way(s) to calculate the same, which is/are as follows -
  • Average Velocity given RMS = (0.9213*Root Mean Square of Speed)
  • Average Velocity given RMS = (0.9213*Root Mean Square of Speed)
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