1. A gaseous compound that actually exists in the environment. 2. It is made up of small particles that have mass. 3. It is mostly empty space. 4. It has low density. 5. A hypothetical gas that does not really exist in the environment. 6. The gas particles are in constant and random straight-line motion. 7. The avg. KE is directly related to temperature (itemp = fmotion = 1KE). 8. It can turn into solids and liquids. IDEAL IDEAL 9. There are NO attractive or repulsive forces between gas particles. 10. Its particles have NO definite volume. 11. Collisions of particles are ELASTIC (no loss in total kinetic energy). 12. There are very small attractive and repulsive forces between gas particles which increases as temperature decreases. 13. Particles have very small volume. 14. Collisions of particles are INELASTIC (when gas particles collide, they will lose energy). 15. Obey all gas laws under all conditions of temperature and pressure.

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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please answer all the numbers without answer. thank you!

DIRECTION: Read each statement carefully. Write REAL if the statement describes real gas; write
IDEAL if the statement describes an ideal gas; and write BOTH if the statement describes both real and
ideal gases. Write your answer in the space provided before each number. (20 mins. with provision for
analyzing and writing your answers)
1. A gaseous compound that actually exists in the environment.
2. It is made up of small particles that have mass.
3. It is mostly empty space.
4. It has low density.
5. A hypothetical gas that does not really exist in the environment.
6. The gas particles are in constant and random straight-line motion.
7. The avg. KE is directly related to temperature (†temp = ↑motion = ¡KE).
8. It can turn into solids and liquids.
9. There are NO attractive or repulsive forces between gas particles.
10. Its particles have NO definite volume.
11. Collisions of particles are ELASTIC (no loss in total kinetic energy).
12. There are very small attractive and repulsive forces between gas particles which increases as
temperature decreases.
13. Particles have very small volume.
14. Collisions of particles are INELASTIC (when gas particles collide, they will lose energy).
15. Obey all gas laws under all conditions of temperature and pressure.
IDEAL
IDEAL
Transcribed Image Text:DIRECTION: Read each statement carefully. Write REAL if the statement describes real gas; write IDEAL if the statement describes an ideal gas; and write BOTH if the statement describes both real and ideal gases. Write your answer in the space provided before each number. (20 mins. with provision for analyzing and writing your answers) 1. A gaseous compound that actually exists in the environment. 2. It is made up of small particles that have mass. 3. It is mostly empty space. 4. It has low density. 5. A hypothetical gas that does not really exist in the environment. 6. The gas particles are in constant and random straight-line motion. 7. The avg. KE is directly related to temperature (†temp = ↑motion = ¡KE). 8. It can turn into solids and liquids. 9. There are NO attractive or repulsive forces between gas particles. 10. Its particles have NO definite volume. 11. Collisions of particles are ELASTIC (no loss in total kinetic energy). 12. There are very small attractive and repulsive forces between gas particles which increases as temperature decreases. 13. Particles have very small volume. 14. Collisions of particles are INELASTIC (when gas particles collide, they will lose energy). 15. Obey all gas laws under all conditions of temperature and pressure. IDEAL IDEAL
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