1. The Atmosphere Weather and Climate
2.5.1Summarize information from charts and graphs regarding layers of the atmosphere, temperature, chemical composition, and interaction with radiant energy.

2. Weather and Climate… what’s the difference?
Weather is always changing and refers to the state of the atmosphere at a given time and place
Climate is based on the observations of weather conditions over many years and helps us describe a region
To understand weather and climate, we first need to understand what our atmosphere is made of

3. The Composition of the Atmosphere
How old is the earth? _______
Over this period of time the composition of the atmosphere has changed dramatically
“Air” is not a single gas, it is a mixture of gases

4. The Composition of the Atmosphere
The most abundant gas in the atmosphere is nitrogen
The second most abundant is oxygen
Together make up 99% of clean, dry air
Carbon dioxide is important for absorbing energy in the atmosphere
Water vapor is the source of all clouds and precipitation and absorbs heat given off by Earth

5. Composition of the Atmosphere
Ozone: a form of oxygen with three oxygen atoms bonded together instead of just two (that’s the O2 we breathe)
Results from oxygen absorbing radiation (energy) from the sun
The ozone layer is crucial for life on Earth because it absorbs potentially harmful radiation
The ozone layer allows life on Earth to exist

6. The Composition of the Atmosphere
We just finished talking about the oceans, which contain water.
Liquids are one type of fluid
Gases are also fluids
Most of the properties of our atmosphere that influence weather, climate, and life as we know it, come from the fluid nature of the atmosphere
Check it out!

7. The Structure of the Atmosphere
The atmosphere thins very quickly as you travel away from Earth’s surface
The atmosphere is divided vertically into 4 layers based on temperature

8. The Structure of the Atmosphere
Layers of the atmosphere
The lowest = troposphere
Temperature decreases as altitude increases
Most important weather phenomena occur here
2nd = stratosphere
3rd = mesosphere
Top = thermosphere

9. Atmospheric Basics
Solar Fundamentals
The Sun is the source of all energy in the atmosphere.
This energy is transferred to Earth and throughout the atmosphere through conduction, convection & radiation.

10. Atmospheric Basics
Solar Fundamentals
Conduction is the transfer of energy that occurs when molecules collide.
Through conduction, energy is transferred from the particles of air near Earth’s surface to the particles of air in the lowest layer of the atmosphere.
For conduction to occur, substances must be in contact with one another.
Conduction affects only a very thin atmospheric layer near Earth’s surface.

11. Atmospheric Basics
Solar Fundamentals
Convection is the transfer of energy by the flow of a heated substance.
Pockets of air near Earth’s surface are heated, become less dense than the surrounding air, and rise.
As the warm air rises, it expands and starts to cool.
When it cools below the temperature of the surrounding air, it increases in density and sinks.
Convection currents are among the main mechanisms responsible for the vertical motions of air, which in turn cause different types of weather.

12. Atmospheric Basics
Solar Fundamentals
Radiation is the transfer of energy through space by visible light, ultraviolet radiation, and other forms of electromagnetic waves.
The Sun is shining on, and therefore warming, some portion of Earth’s surface at all times.
While Earth is absorbing solar radiation, it is also continuously sending energy back into space.

13. Heating of the Atmosphere
Heat vs. temperature
Heat is the energy transferred from one object to another due to differences in temperatures.
Bottom line: heat is transferred between objects because of differences in temperature

14. Heating of the Atmosphere
The heating of the atmosphere comes from solar energy
The solar energy is transferred to Earth through radiation
When radiation hits an object, three things happen
1. some radiant energy is absorbed
2. some radiant energy is transmitted through substances like water and air
3. some radiant energy bounces off the object without being absorbed or transmitted

15. Heating of the Atmosphere
If we did not have gases to absorb solar radiation, Earth would not be a place where we could live
This heating of the lower layer of the atmosphere from radiation absorbed by heat absorbing gases is called the greenhouse effect
… so just like plants grow better in a greenhouse, all life on Earth is able to flourish because of the greenhouse effect

16. Heating of the Atmosphere
The temperatures we experience are due to the amount of heating of the atmosphere above us and the ground and water around us.
Land heats and cools more rapidly than water
Land also reaches higher and lower temperatures than water
The temperature of the land and water influences the temperature of the air above it
This explains why inland areas experience greater temperature variations than cities near large bodies of water

17. Think about it!
City A is located on the Outer Banks of NC and City B is located inland. Which city would experience greater variations in temperature and why?

18. Air Masses and Weather
Weather patterns result from the movement of large bodies of air called air masses
Air masses are characterized by similar temperatures and amounts of moisture at certain altitudes.
When air masses move, the characteristics of the air mass change and the weather in the areas over which they move changes

19. Starts off at -460C
Ends up at 700C

20. Air Masses and Weather Example of air mass/weather interaction:
A cold, dry air mass moves over warm, tropical waters
The air mass becomes warmer and wetter
The weather over those waters becomes colder and drier
You try…
A warm, dry air mass moves over a cold, wet area
The air mass becomes ______________ and _______
The weather over that area becomes ____________ and ____________

21. When air masses meet… Fronts
When two air masses meet, they form a front- the boundary that separates the two
There are 4 types of fronts
Warm fronts
Cold fronts
Stationary fronts
Occluded fronts

22. Fronts
Warm fronts
Form when warm air moves into an area formerly covered by cold air
Shown on a weather map by a red line with semi-circles pointing toward the colder air
Warmer air
Colder air

23. Fronts
Warm front

24. Fronts Warm fronts As the warmer, less dense air rises, it cools
This produces clouds and frequent precipitation
Warm fronts move slowly, so the precipitation is light-to-moderate over a large area for a long period of time

25. Fronts
Cold fronts
Form when cold, dense air moves into an area formerly occupied by warmer air
Shown on a weather map by a blue line with triangles pointing toward the warmer air
Colder air
Warmer air

26. Fronts
Cold Front

27. Cold Fronts Fronts Move much more quickly than warm fronts
Associated with heavy precipitation that is short-lived

28. Stationary Fronts Fronts
Form when the flow of air is neither toward the cold air mass, nor toward the warm air mass
The front does not move
Shown by blue triangles on one side and red semicircles on the other
Gentle to moderate precipitation

29. Occluded Front Fronts Forms when a cold front overtakes a warm front
Complex weather patterns

30. Thunderstorms Severe Storms
Develop when warm, humid air rises in an unstable environment
Warm air Heavy rain Cooler air

31. Tornadoes Severe Storms Violent windstorms
Form as a vortex extends down from a cumulonimbus cloud
A vortex is a rotating column of air
Most tornadoes form along with severe thunderstorms

32. Tornadoes Severe Storms
Tornado Watches: there is the possibility of a tornado in the area
Tornado Warning: a tornado has been spotted in the area or is indicated by radar

33. Damage Caused by Tornadoes
Extremely high winds can tear buildings apart, slip cars, and even suck the water out of a riverbed

34. Hurricanes Severe Storms
A hurricane is a large, rotating tropical weather system with wind speeds of at least 74 mph
Hurricanes are the most powerful storms on Earth
In other countries they are also known as typhoons and cyclones

35. How Do Hurricanes Form?
A hurricane begins as a group of thunderstorms moving over tropical ocean waters
Winds traveling in two different directions collide causing the storm to spin
Warm water gives the storm energy and causes it to grow

36. Structure of a Hurricane
The eye is a zone of scattered clouds and calm averaging about 20 kilometers in diameter at the center of a hurricane. The eye has the warmest temperatures.
The eye wall is a doughnut-shaped area of intense cumulonimbus development and very strong winds that surrounds the eye of a hurricane.

37. Damage Caused by Hurricanes
Hurricane winds can knock down trees and telephone poles
However, the most damage during a hurricane comes from flooding due to heavy rain and storm surges
A storm surge is a wall of water that builds up over the ocean and can be up to 20 feet before it crashes onto the shore