Specific Heat
Convection
Transfer of heat energy due to density differences
4 types of greenhouse gasses
Water vapor (h2o), methane (CH4), nitrous oxide, (N2O), and carbon dioxide (CO2)
During which phase change of water is the most energy released into the environment?
Water vapor condensing
Radiation
transfer of EME through space in the form of transverse waves. **no medium is required for this transfer of energy
Conduction
transfer of heat energy due to molecular collision
Which process requires the most absorption of energy by water?
vaporizing 1 gram of liquid water
The same amount of heat energy is added to equal masses of Lead, Iron, Basalt, and water at room temperature. Assuming no phase change takes place, which substances will have the smallest change in temperature?
water
Reflect
when light bounces off a surface
refract
when light gets bent
Give the two phase changes that release energy
Condensation and freezing
What type of relationship does kinetic energy and temperature have?
Direct relationship
Which statement best explains why water in a glass becomes colder when ice cubes are added?
Heat flows from the water to the ice cubes
Equal masses of Basalt, Granite, Iron and Lead received the same amount of solar energy during the day.. At night which of these materials would cool down at the fastest rate
Lead
What is a joule?
The unit of measurement in the SI (the improved metric unit) system. It is the amount of heat energy required to raise the temperature of 1 gram of water 1 degree celsius
Heat
Thermal energy that is transferred from one substance to another
specific heat
The amount of energy required to raise the temperature of 1 gram of a substance by 1 degree Celsius
5 gram samples of Granite, Basalt, Iron, and copper at room temperature are placed in a beaker of boiling water. Which sample would reach a temperature of 60* C first?
basalt
Liquid water can store more heat energy than an equal amount of any other naturally occurring substance because liquid water
has the higher specific heat
When an object reflects most of the light that hits it, it looks bright and has a ____ albedo.
high
Hot things ___ and cold things ___
hot things rise (lower density) and cold things sink (higher density)
Which process requires water to gain 334 joules of energy per gram?
melting
Give the two phase changes that gain energy
melting and vaporizing
When these particles are sufficiently large, we notice their presence as they ____ scatter and ____ absorb sunlight. Their scattering of sunlight can ____ visibility (haze) and redden sunrises and sunsets.
scatter, absorb, reduce
Sun's rays are
short rays
Density at 3.98* Celsius
1.0 g/mL
How many joules of heat energy are released by each gram of water vapor that condenses to form cloud droplets?
2,260
How many joules are required to evaporate 1 gram of boiling water?
2,260 J
Which energy statement is correct when 10 grams of water vapor condenses?
22,600 J
Heat energy gained during vaporization
2260 J/g
Heat energy released during condensation
2260 J/g
What is the total number of joules required to melt 100 grams of ice at 0* C to liquid water at 0*C?
33,400
Heat Energy Gained During Melting
334 J/g
Heat energy released during freezing
334 J/g
How many joules of heat energy are required to evaporate 2 grams of water from a lake surface (its ok to look at reference table)
4,520
Large oceans moderate the climatic temperatures of surrounding coastal land areas because the temperature of ocean water changes
slowly due to waters high specific heat
Conduction works best in what phase and why?
solids because molecules are packed tightly together
Heat always flows from the...
source (hotter object) to the sink (cooler object)
After sunset, what can be expected with the cooling rate of soil compared to the cooling rate of water?
the soil will cool faster because it has a lower specific heat
When water changes to ice, its density decreased because
the water volume expanded as it changed to ice
Aerosols
tiny particles suspended in the atmosphere (i.e. ash from volcanic eruptions, salt from sea spray, etc.)
Pieces of lead, copper, iron, and granite, each having a mas of 1 kilogram and a temperature of 100* C, were removed from a container of boiling water and allowed to cool under identical conditions. Which piece most likely cooled to room temperature first?
Lead
Temperature
Measures the average kinetic energy of the particles in a sample of matter
Scattering
to get reflected and refracted in all directions
Absorb
to take in (good absorbers are good re-radiators)
Light colored and smooth are good or bad absorbers
bad, they reflect good though
During the winter, explain why locations near the Atlantic ocean have air temperatures that are warmer than locations farther inland, at the same latitude
because the water has a higher specific heat making it cool down slower.
During which phase change does water release the most heat energy?
condensation
Compared to the climate conditions of dry, inland locations, the climate conditions of locations influenced by a nearby ocean generally result in
cooler summers and warmer winters, with a smaller annual range of temperatures.
What is the correct process that changes the states of matter starting with freezing?
freezing, melting, evaporation, condensation
Dark and rough are good or bad absorbers
good
When water at 90*C is cooled down to 4* its density will slightly..
increase
Land surfaces of Earth heat more rapidly than water surfaces because
land has a lower specific heat than water
How do the rates of warming and cooling of land surfaces compare to the rates of warming and cooling of ocean surfaces
land surfaces warm faster and cool faster
Convection works best in what two phases?
liquid and gas
Which phase change requires water to gain 2260 J/g
liquid water vaporizing
IR radiation given from the Earth is
long wave
When an object absorbs most of the light that hits it, it looks dark and has a ___ albedo.
low
Albedo
the fraction of the incident sunlight that is reflected
The greater the specific heat...
the slower it heats up or cools down/the greater the amount of heat needed to raise its temperature
