2.4 Distribution of molecular speeds (Page 106/9)

University physics volume 2 Page 1 / 9

By the end of this section, you will be able to:

Describe the distribution of molecular speeds in an ideal gas
Find the average and most probable molecular speeds in an ideal gas

Particles in an ideal gas all travel at relatively high speeds, but they do not travel at the same speed. The rms speed is one kind of average, but many particles move faster and many move slower. The actual distribution of speeds has several interesting implications for other areas of physics, as we will see in later chapters.

The maxwell-boltzmann distribution

The motion of molecules in a gas is random in magnitude and direction for individual molecules, but a gas of many molecules has a predictable distribution of molecular speeds. This predictable distribution of molecular speeds is known as the Maxwell-Boltzmann distribution , after its originators, who calculated it based on kinetic theory, and it has since been confirmed experimentally ( [link] ).

To understand this figure, we must define a distribution function of molecular speeds, since with a finite number of molecules, the probability that a molecule will have exactly a given speed is 0.

The figure is a graph of probability versus velocity v in meters per second of oxygen gas at 300 kelvin. The graph has a peak probability at a velocity V p of just under 400 meters per second and a root-mean-square probability at a velocity v r m s of about 500 meters per second. The probability is zero at the origin and tends to zero at infinity. The graph is not symmetric, but rather steeper on the left than on the right of the peak. — The Maxwell-Boltzmann distribution of molecular speeds in an ideal gas. The most likely speed $v_{p}$ is less than the rms speed $v_{rms}$ . Although very high speeds are possible, only a tiny fraction of the molecules have speeds that are an order of magnitude greater than $v_{rms} .$

We define the distribution function $f (v)$ by saying that the expected number $N (v_{1}, v_{2})$ of particles with speeds between $v_{1}$ and $v_{2}$ is given by

N (v_{1}, v_{2}) = N \int_{v_{1}}^{v_{2}} f (v) d v .

[Since N is dimensionless, the unit of f ( v ) is seconds per meter.] We can write this equation conveniently in differential form:

d N = N f (v) d v .

In this form, we can understand the equation as saying that the number of molecules with speeds between v and $v + d v$ is the total number of molecules in the sample times f ( v ) times dv . That is, the probability that a molecule’s speed is between v and $v + d v$ is f ( v ) dv .

We can now quote Maxwell’s result, although the proof is beyond our scope.

Maxwell-boltzmann distribution of speeds

The distribution function for speeds of particles in an ideal gas at temperature T is

f (v) = \frac{4}{\sqrt{π}} {(\frac{m}{2 k_{B} T})}^{3 / 2} v^{2} e^{− m v^{2} / 2 k_{B} T} .

The factors before the $v^{2}$ are a normalization constant; they make sure that $N (0, \infty) = N$ by making sure that $\int_{0}^{\infty} f (v) d v = 1 .$ Let’s focus on the dependence on v . The factor of $v^{2}$ means that $f (0) = 0$ and for small v , the curve looks like a parabola. The factor of $e^{− m_{0} v^{2} / 2 k_{B} T}$ means that $lim_{v \to \infty} f (v) = 0$ and the graph has an exponential tail, which indicates that a few molecules may move at several times the rms speed. The interaction of these factors gives the function the single-peaked shape shown in the figure.

Calculating the ratio of numbers of molecules near given speeds

In a sample of nitrogen

(N_{2},

with a molar mass of 28.0 g/mol) at a temperature of

273 °C

, find the ratio of the number of molecules with a speed very close to 300 m/s to the number with a speed very close to 100 m/s.

Strategy

Since we’re looking at a small range, we can approximate the number of molecules near 100 m/s as

d N_{100} = f (100 m/s) d v .

Then the ratio we want is

\frac{d N_{300}}{d N_{100}} = \frac{f (300 m/s) d v}{f (100 m/s) d v} = \frac{f (300 m/s)}{f (100 m/s)} .

All we have to do is take the ratio of the two f values.

Solution

Identify the knowns and convert to SI units if necessary.

$T = 300 K, k_{B} = 1.38 \times 10^{−23} J/K$

$M = 0.0280 kg/mol so m = 4.65 \times 10^{−26} kg$
Substitute the values and solve.

$\begin{matrix} \frac{f (300 m/s)}{f (100 m/s)} & = \frac{\frac{4}{\sqrt{π}} {(\frac{m}{2 k_{B} T})}^{3 / 2} {(300 m/s)}^{2} exp [− m {(300 m/s)}^{2} / 2 k_{B} T]}{\frac{4}{\sqrt{π}} {(\frac{m}{2 k_{B} T})}^{3 / 2} {(100 m/s)}^{2} exp [− m {(100 m/s)}^{2} / 2 k_{B} T]} \\ = \frac{{(300 m/s)}^{2} exp [− (4.65 \times 10^{−26} kg) {(300 m/s)}^{2} / 2 (1.38 \times 10^{−23} J/K) (300 K)]}{{(100 m/s)}^{2} exp [− (4.65 \times 10^{−26} kg) {(100 m/s)}^{2} / 2 (1.38 \times 10^{−23} J/K) (300 K)]} \\ = 3^{2} exp [- \frac{(4.65 \times 10^{−26} kg) [{(300 m/s)}^{2} - {(100 ms)}^{2}]}{2 (1.38 \times 10^{−23} J/K) (300 K)}] \\ = 5.74 \end{matrix}$

Got questions? Get instant answers now!

Questions & Answers

it is the relatively stable flow of income

Chidubem Reply

what is circular flow of income

Divine Reply

branches of macroeconomics

SHEDRACK Reply

what is Flexible exchang rate?

poudel Reply

is gdp a reliable measurement of wealth

Atega Reply

introduction to econometrics

Husseini Reply

mostafa

LEMLEM

hello

Sammol

Mahesh

Ruqayat

Hi fellas

Nyawa

hey

Sammol

God

hello

Jahara

Good morning

Jorge

abubakar

Nmesoma

Mahesh

Tom

Why is unemployment rate never zero at full employment?

Priyanka Reply

bcoz of existence of frictional unemployment in our economy.

Umashankar

what is flexible exchang rate?

poudel

due to existence of the pple with disabilities

Abdulraufu

the demand of a good rises, causing the demand for another good to fall

Rushawn Reply

is it possible to leave every good at the same level

Joseph

I don't think so. because check it, if the demand for chicken increases, people will no longer consume fish like they used to causing a fall in the demand for fish

Anuolu

is not really possible to let the value of a goods to be same at the same time.....

Salome

Suppose the inflation rate is 6%, does it mean that all the goods you purchase will cost 6% more than previous year? Provide with reasoning.

Geetha Reply

Not necessarily. To measure the inflation rate economists normally use an averaged price index of a basket of certain goods. So if you purchase goods included in the basket, you will notice that you pay 6% more, otherwise not necessarily.

Waeth

discus major problems of macroeconomics

Alii Reply

what is the problem of macroeconomics

Yoal

Economic growth Stable prices and low unemployment

Ephraim

explain inflationcause and itis degre

Miresa Reply

what is inflation

Getu

increase in general price levels

WEETO

Good day How do I calculate this question: C= 100+5yd G= 2000 T= 2000 I(planned)=200. Suppose the actual output is 3000. What is the level of planned expenditures at this level of output?

Chisomo Reply

how to calculate actual output?

Chisomo

how to calculate the equilibrium income

Beshir

Criteria for determining money supply

Thapase Reply

who we can define macroeconomics in one line

Muhammad

Aggregate demand

Mohammed

C=k100 +9y and i=k50.calculate the equilibrium level of output

Mercy Reply

Isiaka

Geli

Man

👋

Bahunda

hy how are you?

Man

Amisha

how are you guys

Sekou

f9 guys

Amisha

how are you guys

Sekou

ys am also fine

Amisha

fine and you guys

Geli

from Nepal

Amisha

nawalparasi district from belatari

Amisha

nd u

Amisha

I am Camara from Guinea west Africa... happy to meet you guys here

Sekou

ma management ho

Amisha

ahile becheclor ho

Amisha

hjr ktm bta ho ani k kaam grnu hunxa tw

Amisha

belatari

Amisha

1st year ho

Amisha

nd u

Amisha

ahh

Amisha

kaha biratnagar

Amisha

kina k vo

Amisha

money as unit of account means what?

Kalombe

A unit of account is something that can be used to value goods and services and make calculations

Jim

all of you please speak in English I can't understand you're language

Muhammad

I want to know how can we define macroeconomics in one line

Muhammad

it must be .9 or 0.9 no Mpc is greater than 1 Y=100+.9Y+50 Y-.9Y=150 0.1Y/0.1=150/0.1 Y=1500

Kalombe

Mercy is it clear?😋

Kalombe

hi can someone help me on this question If a negative shocks shifts the IS curve to the left, what type of policy do you suggest so as to stabilize the level of output? discuss your answer using appropriate graph.

Galge Reply

if interest rate is increased this will will reduce the level of income shifting the curve to the left ◀️

Kalombe

Got questions? Join the online conversation and get instant answers!

Jobilize.com Reply

<< Chapter < Page Page > Chapter >>

Practice Key Terms 3

Read also:

Get Jobilize Job Search Mobile App in your pocket Now!

100% Free Mobile Applications
Receive real-time job alerts and never miss the right job again

Source: OpenStax, University physics volume 2. OpenStax CNX. Oct 06, 2016 Download for free at http://cnx.org/content/col12074/1.3

Google Play and the Google Play logo are trademarks of Google Inc.

Notification Switch

Would you like to follow the 'University physics volume 2' conversation and receive update notifications?

Ask

	Computer System Engineering By Samuel Madden Start Exam
	5 Physiotherapy Flashcards Set 5 By Rhodes Start Flashcards
	2 Microeconomics 02 Choice in a World of Scarcity By OpenStax Start Flashcards
	Microeconomics By OpenStax Read Online Course
©flickr: Aaron	Computer Literacy Exam 1 By Lakeima Roberts Start Quiz
	21 AP 21 Lymphatic Immune System Essay By OpenStax Start Flashcards
	5 Microbiology Final Practice By Madison Christian Start Assignment
	Grade 10 Module 2.1 IT Quiz (Part 1) By Christine Zeelie Start Quiz
	26 AP 26 Fluid, Electrolyte, Acid-Base Balance MCQ By OpenStax Start Quiz
	21 Biology 21 Viruses MCQ By OpenStax Start Quiz