Draw the Lewis structures of all 7 diatomic elements

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Warm up Draw the Lewis structures of all 7 diatomic elements Jan 27-7:44 AM States of Matter - Part 1 - Gases Definitions kinetic-molecular theory particles of matter are always in motion ideal gas hypothetical gas that perfectly fits all the assumptions of the kinetic-molecular theory of gases Jan 27-7:50 AM 1

Five assumptions of the kinetic-molecular theory as it applies to gases... 1) gases consist of large numbers of tiny particles that are far apart relative to their size -typically the volume of a gas is about 1000 times greater than the volume of the same number of particles in the liquid state Jan 27-7:53 AM 2) Collisions between gas particles and between particles and container walls are elastic collisions. -an elastic collision is one in which no net loss of total kinetic energy -kinetic energy is transferred between particles during collisions, but the total energy of the two particles remains the same as long as the temperature is constant Jan 27-7:55 AM 2

3) Gas particles are in continuous, rapid, random motion. They therefore possess kinetic energy (energy of motion). -the kinetic energy overcomes the attractive forces between the particles -as temperature lowers, so does kinetic energy and thus the attractive forces can start to condense the gas into a liquid Jan 27-7:58 AM 4) There are no forces of attraction between gas particles. -for ideal gases, all attraction between particles can be ignored. Jan 27-8:01 AM 3

5) The temperature of a gas depends on the average kinetic energy of the particles of the gas. -The kinetic energy of any object is given by the equation KE =(1/2)mv 2 where m is the mass of the particle and v is its speed. Since all of the particles of a gas will have the same mass, their kinetic energy depends only on their speed. Jan 27-8:03 AM -Gases at the same temperature have the same average kinetic energy, therefore lighter molecules, such as hydrogen, will have higher speeds than heavier ones, such as oxygen. -Ideal gases do not actually exist, however, many gases behave in this manner so long as the pressure is not too high or the temperature too low Jan 27-8:06 AM 4

Expansion -gases will fill the container they are in based on 3 (rapidly moving in all directions) and 4 (no attraction between particles) Fluidity -particles easily slide past one another due to 4 (no attraction between particles). - since both liquids and gases "flow", they are both refered to as fluids. Jan 27-8:08 AM Low density times less than its liquid Compressibility -since the particles are so spread out, they can be compressed Jan 27-8:11 AM 5

Diffusion vs Effusion -Diffusion is when particles of two substances spontaneously mix due to their random motion example: the odor from a candle -Effusion is a process by which gas particles pass though a tiny opening. -rates of effusion are directly proportional to the velocity of the particles. Hydrogen will have a faster effusion rate than oxygen. Jan 27-8:13 AM Jan 27-8:27 AM 6

Effusion after time x for both situations. Why are there more He particles in the evacuation chamber than Ehtylene oxide? Jan 27-8:28 AM Not so ideal gases -A real gas is one that does not behave completely according to the assumptions of -When temperature becomes too low or the pressure too high, the attractive forces between the molecules are no longer overcome by the kinetic energy of the particles Jan 27-8:30 AM 7

Noble gases, since they are monatomic and happy, can withstand higher pressures and lower temperatures and still remain a gas. This also applies to the nonpolar diatomic gases since they are happily bonded to one another. Hence, the condensation/boiling point of noble gases and the diatomics are very low. Jan 27-8:34 AM Boiling Points of diatomics H = -252.9 C N = -195.8 C O = -183 C F = -188.1 C Cl = -34.04 C Jan 27-8:36 AM 8

More polar molecules, such as water and ammonia tend to act less like an ideal gas because they have stronger attractions between the molecules and therefore deviate from the kinetic-molecular theory at lower pressures and higher temperatures. Boiling point of ammonia = -33 C Boiling point of water = 100 C Jan 27-8:43 AM Drawing Conclusions: Molecules of hydrogen escape from Earth, but molecules of oxygen and nitrogen are held to the surface and remain in the atmosphere. Explain why this is. Jan 27-8:47 AM 9

Jan 25-7:29 AM 10

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