The equation of state is PV = .............

The equation of state is PV = ..........

Text Solution

AI Generated Solution

To solve the question regarding the equation of state, we will follow these steps: ### Step 1: Understand the Equation of State The equation of state relates the pressure (P), volume (V), and temperature (T) of a gas. For an ideal gas, this relationship is expressed in a specific form. ### Step 2: Recall the Ideal Gas Law The ideal gas law is a fundamental equation in chemistry that describes the behavior of ideal gases. The equation is given by: \[ PV = nRT \] ...

Topper's Solved these Questions

STATES OF MATTER
CENGAGE CHEMISTRY ENGLISH|Exercise Exercises (Ture False)|25 Videos
STATES OF MATTER
CENGAGE CHEMISTRY ENGLISH|Exercise Ex 5.4|32 Videos
SOME BASIC CONCEPTS AND MOLE CONCEPT
CENGAGE CHEMISTRY ENGLISH|Exercise Archives Subjective|11 Videos
STOICHIOMETRY
CENGAGE CHEMISTRY ENGLISH|Exercise Archives Subjective|33 Videos

Similar Questions

Explore conceptually related problems

In the equation of state of an ideal gas PV =nRT , the value of the universal gas constant is not correct :

In the equation of state of an ideal gas PV = nRT, the value of universal gas constant would depend only on :

The equation of state for a gas is given by PV = eta RT + alpha V , where eta is the number of moles and alpha a positive constant. The intinal pressure and temperature of 1 mol of the gas contained in a cylinder is P_(0) and T_(0) , respectively. The work done by the gas when its temperature doubles isobarically will be

What is the equation of state of an ideal gas ? Why is it so called ?

For n moles of ideal gas, the equation of state may be written as

Using the equation of state pV=nRT , show that at a given temperature the density of gas is proportional to gas pressure p .

One way of writing the equation of state for real gases is PV = RT [1+R/V+…] ? Where B is constant. Derive an approximate expression for B in terms of the van der Waals constant a and b.

One way of writing the equation of state for real gases is PV=RT[1+(B)/(V)+….] where B is a constant. Derive an approximate expression for B in terms of the van der Waals constants a and b .

An ideal gaseous sample at initial state I (P_0, V_0, T_0) is allowed to expand to volume 2V_0 using two different process, in the first process the equation of process is PV_2=K_1 and in second process the equation of the process is PV=K_2 .Then

What is the equation of state for 16kg of O_(2) ?

CENGAGE CHEMISTRY ENGLISH-STATES OF MATTER-Exercises (Fill In The Blanks)

Vapor pressure of a liquid decreases with increases in ........
Text Solution
|
The larger the molecular size..........should be the value of b.
Text Solution
|
Density of the gas is......... Proportioanl to pressure.
Text Solution
|
Temperature above which gas cannot be liquefied is called .........
Text Solution
|
Volume occupied by gas at T(c ) and P(c ) is called........
Text Solution
|
The gas molecule can be liquefied and solidified due to the pressure o...
Text Solution
|
The numerical value of b is ......times the actual volume occupied by ...
Text Solution
|
The ratio of molar volume to ideal molar volume is called .......
Text Solution
|
For hydrogen gas, Z is ......unity at all pressure.
Text Solution
|
SI Unit of pressure would be.........
Text Solution
|
Real gases behave ideal at ........and .......
Text Solution
|
Z for ideal gas is...........
Text Solution
|
Surface tension decreases with increase in .......
Text Solution
|
Viscosity of liquid decreases with increase in........
Text Solution
|
Total pressure of gases is ...........to the sum of partial pressure o...
Text Solution
|
The equation of state is PV = ..........
Text Solution
|
Rate of diffusion is directly proportional to.........
Text Solution
|
Total kinetic energy of gas depends only upon........
Text Solution
|
According to Charles's law, volume of gas is related to pressure as .....
Text Solution
|
The equation of (P(c )V(c ))/(RT(c )) = ..........
Text Solution
|