Chemistry
10th Edition
ISBN: 9781305957404
Author: Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher: Cengage Learning
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Transcribed Image Text:The image appears to show diagrams related to gas laws. There are three sets of diagrams, each illustrating a different concept with a container, a piston, and heat application.
**Diagram Descriptions:**
1. **First Diagram:**
- Two containers with pistons.
- The container on the left shows more gas particles and is under higher pressure. The container on the right shows fewer gas particles and is under lower pressure.
- This likely illustrates Boyle's Law, which states that pressure and volume are inversely related at constant temperature.
2. **Second Diagram:**
- Two containers with pistons with heat applied underneath the second container.
- When heat is applied, the pressure seems to increase, causing the gas particles to move faster and push the piston upwards.
- This likely illustrates Gay-Lussac's Law, which states that pressure and temperature are directly related at constant volume.
3. **Third Diagram:**
- Two containers with pistons showing heat application.
- The first container shows fewer particles, while the second container, which has more heat applied, shows more particles pushing the piston up.
- This likely illustrates Charles's Law, which states that volume and temperature are directly related at constant pressure.
**List of Laws:**
1. Boyle's Law
2. Charles's Law
3. Gay-Lussac's Law
4. Avogadro's Law
Each law helps explain the behavior of gases under different conditions, demonstrating foundational principles in thermodynamics.
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- Use Avogadro's Law to solve this problem. A 6.0 L sample of gas is known to contain 0.965 moles. If the amount of gas is increased to 1.80 moles, what is the new volume?arrow_forwardA 367 mL sample of Ar(g) at 25 ⁰C and a barometric pressure of 698 mmHg is passed through water at 25 ⁰C. What is the volume of gas when saturated with water vapor at same barometric pressure?(vapor pressure of water at 25 ⁰C = 23.8 mmHg) a. 420 ml b. 360 ml c. 120 ml d. 380 ml e. 240 mlarrow_forwardDescribe Boyle's Law, Charles' Law, and Avogadro's Law in your own words? What is the ideal gas constant? Describe how the volume of a gas can be determined using the ideal gas constant?arrow_forward
- Which of the gas laws could be represented by the graph below? A. Charles’ Law B. The Combined Gas Law C. Boyle’s Law D. Gay-Lussac’s Lawarrow_forwardCOMBINED GAS LAW A gas has the initial conditions of: 21.2 Liters 279 K 1.03 atmospheres If its temperature is increased to 411K and its pressure reduced to 0.28 atmospheres, what w volume be?arrow_forwardWhat gas law does this show? Charles law or Boyle’s law?arrow_forward
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