Do Now and Announcements Take out HW to be checked and work on Do Now Properties of Liquids Review Assignment due WED 12/10 Will count as quiz grade
Label the following diagram indicating vapor pressure (VP) and atmospheric/air pressure (AP):
By putting ice on top of the flask Temp of air inside flask: Pressure of air inside flask: **Explain, in terms of temperature change, atmospheric pressure, and vapor pressure, what happened in the demonstration
1. What Celsius temperature is equal to 298 K? 2. Which Kelvin temperature is equal to 56°C?
Definitions Kinetic Energy=the energy associated with moving particles (i.e. atoms) Temperature=measure of the average kinetic energy of a sample of a substance. Heat=is measured as the energy that is transferred from one object to another because of a difference in temperature. The direction of heat flow is always from the hotter object to the colder object.
1. Different masses of copper and iron are found to have the same temperature. Compare the average kinetic energy of the copper atoms to the iron atoms. They have the same average KE because they have the same temperature
2. For the following scenarios, please indicate whether the average kinetic energy of H2O molecules is increasing, decreasing, or remaining the same. KE is increasing a) H2O(l) at 10°C changes to H2O(l) at 20°C: Why? b) H2O(l) at 20°C changes to H2O(l) at 10°C: c) H2O(s) changes to H2O(l) at 0°C: The temperature is increasing KE is decreasing The temperature is decreasing KE remains the same No change in temperature
Demo
Specific Heat Capacity: The amount of energy needed to raise the temperature of 1 gram of a substance by 1°C Heat = Energy transferred due to a difference in temperatures. The amount of heat absorbed or released in a physical or chemical reaction can be calculated using the equation q = mCΔT
Station Questions
Answer questions 1-7 based on the “Heating Curve”
1. During which 3 line segments does the temperature of the substance increase? 2. During which 2 line segments does the temperature of the substance remain the same? 3. At which point do the molecules of the substance have the lowest average kinetic energy? The highest? AB, CD, and EF BC and DE Lowest average KE: A Highest average KE: F
4. Which phases of matter are present during segment BC? 5. Which phases of matter are present during segment DE? 6. Even though heat is being added to the substance the entire time, why do you think there is no change in temperature during segments BC and DE? Where do you think the heat energy is going or being used for? 7. Comparing segments B–C and D–E, what information is conveyed by the observation that segment D–E is longer? Solid and liquid Liquid and gas The heat is being used to melt the substance (BC) or boil it (DE) It takes more heat energy to boil the substance than it does to melt it
Kinetic vs. Potential Energy Kinetic Energy=the energy associated with moving particles; related to temperature. Potential Energy=the energy associated with the spaces between the atoms/molecules in a substance. It is NOT related to temperature; it is related with phase change
*Heat energy is being transferred to either KE or PE *When KE is changing, PE remains constant *When PE is changing, KE remains constant ↑ ↑ None (molecules still pretty close together) None None ↑ (Molecules are getting further apart as solid changes into liquid) None ↑ ↑ (molecules still loosely together) None None ↑ (Molecules are getting further apart as liquid changes into gas) ↑ ↑ None (molecules still far apart)
gas condensation liquid freezing solid We can also apply the same concepts to a cooling curve, in which a substance is cooled (or heat is removed from a substance) over time. ↓ ↓ None (molecules still far apart) None None ↓ (Molecules are getting closer together as gas changes into liquid) ↓ ↓ None (molecules still loosely together) ↓ (Molecules are getting closer together as liquid changes into solid) None None ↓ ↓ None (molecules still pretty close together)