To conduct the first experiment, pump the gas pump to inject gas into the chamber. Only use between 3 and 7 pumps. Adjust the temperature to between 100 K and 500 K using the fire/ice bucket at the bottom. Do not alter the chamber's width for now; keep it at 10.0 nm (handle on left of chamber). Avoid opening the chamber to let gas molecules escape (handle on top of chamber).**Calculating Moles Using the Ideal Gas Law:** \( PV = nRT \), where \( R = 0.0821 \).Once you have set everything as desired, you will calculate how many moles of gas are in the chamber using the Ideal Gas Law. Remember that the Ideal Gas Law requires specific units: atm, L, moles, and Kelvin.- **Pressure**: Indicated by the circular instrument on the top right of the chamber. It is conveniently already in atmospheres.- **Volume**: Determine the volume in nm\(^3\) by multiplying the width, height, and depth of the chamber. Depth is always 1.00 nm and height is always 10.0 nm. Width is adjustable to either 10.0 nm or 15.0 nm, depending on the experiment. Thus, volume = width you adjust x 10.0 nm x 1.00 nm, with units of nm\(^3\). Simplifying, it is the width you select x 10.0, with units of nm\(^3\). For simplification, assume your volume answer in nm\(^3\) is actually liters (L) when calculating the Ideal Gas Law.- **Temperature**: Indicated by the thermometer, conveniently already in Kelvin.- **Quantity**: For these experiments, you will calculate the quantity, or moles, of gas under each scenario. What solution do you obtain when you solve the Ideal Gas Law, \( PV = nRT \), for \( n \), moles? \( R = 0.0821 \). **Question 12**A rigid container filled with a gas is placed in ice (e.g., a rigid water bottle filled with gas). The rigidity means the volume remains the same. What will happen to the pressure of the gas?A. Decrease B. Increase (Note: There are no graphs or diagrams accompanying this question.)

According to the ideal gas equation PV = nRT where, P= pressure, V= volume, n= no of moles of gas,…

A rigid container filled with a gas is placed in ice (ex. rigid water bottle filed with gas). The rigidity means the volume remains the same. What will happen to the pressure of the gas? A. Decrease B. Increase

A rigid container filled with a gas is placed in ice (ex. rigid water bottle filed with gas). The rigidity means the volume remains the same. What will happen to the pressure of the gas? A. Decrease B. Increase

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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Concept explainers

Ideal and Real Gases

Ideal gases obey conditions of the general gas laws under all states of pressure and temperature. Ideal gases are also named perfect gases. The attributes of ideal gases are as follows,

Gas Laws

Gas laws describe the ways in which volume, temperature, pressure, and other conditions correlate when matter is in a gaseous state. The very first observations about the physical properties of gases was made by Robert Boyle in 1662. Later discoveries were made by Charles, Gay-Lussac, Avogadro, and others. Eventually, these observations were combined to produce the ideal gas law.

Gaseous State

It is well known that matter exists in different forms in our surroundings. There are five known states of matter, such as solids, gases, liquids, plasma and Bose-Einstein condensate. The last two are known newly in the recent days. Thus, the detailed forms of matter studied are solids, gases and liquids. The best example of a substance that is present in different states is water. It is solid ice, gaseous vapor or steam and liquid water depending on the temperature and pressure conditions. This is due to the difference in the intermolecular forces and distances. The occurrence of three different phases is due to the difference in the two major forces, the force which tends to tightly hold molecules i.e., forces of attraction and the disruptive forces obtained from the thermal energy of molecules.

Question

To conduct the first experiment, pump the gas pump to inject gas into the chamber. Only use between 3 and 7 pumps. Adjust the temperature to between 100 K and 500 K using the fire/ice bucket at the bottom. Do not alter the chamber's width for now; keep it at 10.0 nm (handle on left of chamber). Avoid opening the chamber to let gas molecules escape (handle on top of chamber).

**Calculating Moles Using the Ideal Gas Law:** \( PV = nRT \), where \( R = 0.0821 \).

Once you have set everything as desired, you will calculate how many moles of gas are in the chamber using the Ideal Gas Law. Remember that the Ideal Gas Law requires specific units: atm, L, moles, and Kelvin.

- **Pressure**: Indicated by the circular instrument on the top right of the chamber. It is conveniently already in atmospheres.

- **Volume**: Determine the volume in nm\(^3\) by multiplying the width, height, and depth of the chamber. Depth is always 1.00 nm and height is always 10.0 nm. Width is adjustable to either 10.0 nm or 15.0 nm, depending on the experiment. Thus, volume = width you adjust x 10.0 nm x 1.00 nm, with units of nm\(^3\). Simplifying, it is the width you select x 10.0, with units of nm\(^3\). For simplification, assume your volume answer in nm\(^3\) is actually liters (L) when calculating the Ideal Gas Law.

- **Temperature**: Indicated by the thermometer, conveniently already in Kelvin.

- **Quantity**: For these experiments, you will calculate the quantity, or moles, of gas under each scenario. What solution do you obtain when you solve the Ideal Gas Law, \( PV = nRT \), for \( n \), moles? \( R = 0.0821 \).

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