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Ozone Molecule 33 oxygens
Ozone Molecule 3 oxygens
x-ozone destructionozoneozone destruction
x-Layers of the atmosphereLayers
Layers of the atmosphere
x-__//**stratosphere**//__ (pronounced
STRATOSPHER-(pronounced /ˈstrætəsfɪər/) is to the __//**troposphere**//__ near the Earth's surface, which is cooler higher up and warmer farther down. The border of the troposphere and __//**stratosphere**//__, the __//**tropopause, is marked by where this inversion begins, which in terms of atmospheric thermodynamics is the equilibrium level. The stratosphere is situated between about 10 km (6 miles) and 50 km (31 miles) altitude above the surface at moderate latitudes, while at the poles it starts at about 8 km (5 miles) altitude.x-stratosphere**//__ (pronounced /ˈstrætəsfɪər/) is the second major layer of Earth's atmosphere, just above the troposphere, and below the mesosphere. It is stratified in temperature, with warmer layers higher up and cooler layers farther down. This is in contrast to the __//**troposphere**//__ near the Earth's surface, which is cooler higher up and warmer farther down. The border of the troposphere and __//**stratosphere**//__, the __//**tropopause, is marked by where this inversion begins, which in terms of atmospheric thermodynamics is the equilibrium level. The stratosphere is situated between about 10 km (6 miles) and 50 km (31 miles) altitude above the surface at moderate latitudes, while at the poles it starts at about 8 km (5 miles) altitude.stratosphere (pronounced /ˈstrætəsfɪər/) is the second major layer of Earth's atmosphere, just above the troposphere, and below the mesosphere. It is stratified in temperature, with warmer layers higher up and cooler layers farther down. This is in contrast to the troposphereTROPOSPHERE near the and stratosphere, the tropopause,theTROPOPAUSE, is marked
{Layers_of_the_atmosphere.jpg} Layers_of_the_atmosphere.jpg
x-atmospheric composition (pie or bar chart)atmosphericatmospheric composition (pie
{http://www.esrl.noaa.gov/gmd/outreach/isotopes/images/atmospheric_composition.jpg}
x-primary pollutants (pie or bar chart)primaryprimary pollutants (pie bar chart)
x-atmospheric pressure vs. altitudeatmospheric
{http://www.geography.hunter.cuny.edu/~tbw/wc.notes/14.climate.change/US.energy.consumption.pie.chart.jpg}
atmospheric pressure vs. altitude
x-uneven heat distribution of the earth and wind creationuneven
{http://www2.ignatius.edu/faculty/decarlo/EarthToMoon/images/image005.gif}
uneven heat distribution wind creation
x-two Earth motionstwo Earth motions
x-Rotation of the Earth: The Earth orbits around the Sun. It takes one year to go around the Sun one complete time. The Earth also rotates, or spins, on its axis. It takes one day to spin around itself one complete time. The Earth's axis is not straight up and down, but tilted at an angle of 23.5 degrees. The rotation is what causes the change from day to night. This tilt is responsible for having seasons. If the Earth were not tilted, we would have the same season all year long.Rotation
{http://avstop.com/ac/fig5-5.jpg}
Rotation of the
{rotation_and_revolution.gif} rotation_and_revolution.gif
x-RevolutionRevolution of the with 366 days.Revolutiondays.
Summer Solstice and Winter Solstice
Vernal Equinox and Autumnal Equinox
{http://www.fas.org/irp/imint/docs/rst/Sect14/agburt2_02_11.jpg}
climate-the prevailing attitudes, standards, or environmental conditions of a group, period, or place.
{http://www.blueplanetbiomes.org/images/climate_map.gif}
weather-The state of the Earth: The movementatmosphere at a given time and place, with respect to variables such as temperature, moisture, wind velocity, and barometric pressure.
{http://4.bp.blogspot.com/-Q4MuH-H02YI/TyQW-RpZSnI/AAAAAAAALHc/tkOoZgcScgk/s1600/severe-weather-weather-250420_800_600%5B1%5D.jpg}
what causes the Seasons to occur?
{http://www.weatherquestions.com/Seasons.gif} Seasons are caused by the tilt of the Earth aroundaway or toward the Sun in a fixed orbit is calledsun
What causes the seasons?
The seasons are caused by the tilt of the Earth's rotational axis away or toward the sun as revolving. One full orbitit travels through its year-long path around the sun is one revolution. Thesun.
The Earth takes 365 days or 1 yearhas a tilt of 22.5 degrees relative to complete one revolution. The Earth revolvesthe "ecliptic plane" (the imaginary surface formed by it's almost-cicular path around the Sun because of gravity.sun). The Earth really rotates 365 ¼ timestilt toward the sun is maximized during each revolution. The calendar always has 365 days, after every 4 years,Northern Hemisphere summer in late June (the "summer solstice"). At this time, the earth has made one extra rotation. How ever, one extra dayamount of sunlight reaching the Northern Hemisphere is addedat a maximum.
In late December, on the date of the "winter solstice", the Earth's tilt away from the sun is maximized, leading to a minimum of sunlight reaching the monthNorthern Hemisphere. The seasons, of February oncecourse, are reversed in every four years forming a leap year with 366 days.
x-Summer SolsticeSummer Solstice
x-Winter SolsticeWinter Solstice
x-Autumnal equinoxAutumnal equinox
x-Spring equinoxSpring equinox
x-climateclimate
x-weatherweather
x-what causes the SeasonsSouthern Hemisphere.
During the winter, cold air masses build up over North America, Europe, and Asia, due to occur?what causes the Seasonslow intensity of sunlight. The oceanic air masses are much less affected by the seasons because circulations in the upper ocean replenish warm surface water if it has been cooled.
The strong temperature contrast between the cold air masses over land and the relatively warmer air masses over the ocean lead to occur?
x-Whatextratropical (non-tropical) cyclone formation (low pressure). These storms are thus much more frequent and intense in the three mechanisms of heat transfer?Whatwinter than in the summer.
What are the heat transfer?
radiation; conduction; convection.

{ozone_molecule.jpg} Ozone Molecule 3 oxygens
Ozone Molecule 3 oxygens
x-ozone destructionozone destruction
x-Layers of the atmosphereLayers of the atmosphere
x-__//**stratosphere**//__ (pronounced /ˈstrætəsfɪər/) is the second major layer of Earth's atmosphere, just above the troposphere, and below the mesosphere. It is stratified in temperature, with warmer layers higher up and cooler layers farther down. This is in contrast to the __//**troposphere**//__ near the Earth's surface, which is cooler higher up and warmer farther down. The border of the troposphere and __//**stratosphere**//__, the __//**tropopause, is marked by where this inversion begins, which in terms of atmospheric thermodynamics is the equilibrium level. The stratosphere is situated between about 10 km (6 miles) and 50 km (31 miles) altitude above the surface at moderate latitudes, while at the poles it starts at about 8 km (5 miles) altitude.x-stratosphere**//__ (pronounced /ˈstrætəsfɪər/) is the second major layer of Earth's atmosphere, just above the troposphere, and below the mesosphere. It is stratified in temperature, with warmer layers higher up and cooler layers farther down. This is in contrast to the __//**troposphere**//__ near the Earth's surface, which is cooler higher up and warmer farther down. The border of the troposphere and __//**stratosphere**//__, the __//**tropopause, is marked by where this inversion begins, which in terms of atmospheric thermodynamics is the equilibrium level. The stratosphere is situated between about 10 km (6 miles) and 50 km (31 miles) altitude above the surface at moderate latitudes, while at the poles it starts at about 8 km (5 miles) altitude.stratosphere (pronounced /ˈstrætəsfɪər/) is the second major layer of Earth's atmosphere, just above the troposphere, and below the mesosphere. It is stratified in temperature, with warmer layers higher up and cooler layers farther down. This is in contrast to the troposphere near the Earth's surface, which is cooler higher up and warmer farther down. The border of the troposphere and stratosphere, the tropopause, is marked by where this inversion begins, which in terms of atmospheric thermodynamics is the equilibrium level. The stratosphere is situated between about 10 km (6 miles) and 50 km (31 miles) altitude above the surface at moderate latitudes, while at the poles it starts at about 8 km (5 miles) altitude.
{Layers_of_the_atmosphere.jpg} Layers_of_the_atmosphere.jpg
x-atmospheric composition (pie or bar chart)atmospheric composition (pie or bar chart)
{http://www.esrl.noaa.gov/gmd/outreach/isotopes/images/atmospheric_composition.jpg}
x-primary pollutants (pie or bar chart)primary pollutants (pie or bar chart)
x-atmospheric pressure vs. altitudeatmospheric pressure vs. altitude
x-uneven heat distribution of the earth and wind creationuneven heat distribution of the earth and wind creation
x-two Earth motionstwo Earth motions
x-Rotation of the Earth: The Earth orbits around the Sun. It takes one year to go around the Sun one complete time. The Earth also rotates, or spins, on its axis. It takes one day to spin around itself one complete time. The Earth's axis is not straight up and down, but tilted at an angle of 23.5 degrees. The rotation is what causes the change from day to night. This tilt is responsible for having seasons. If the Earth were not tilted, we would have the same season all year long.Rotation of the Earth: The Earth orbits around the Sun. It takes one year to go around the Sun one complete time. The Earth also rotates, or spins, on its axis. It takes one day to spin around itself one complete time. The Earth's axis is not straight up and down, but tilted at an angle of 23.5 degrees. The rotation is what causes the change from day to night. This tilt is responsible for having seasons. If the Earth were not tilted, we would have the same season all year long.
{rotation_and_revolution.gif} rotation_and_revolution.gif
x-Revolution of the Earth: The movement of the Earth around the Sun in a fixed orbit is called as revolving. One full orbit around the sun is one revolution. The Earth takes 365 days or 1 year to complete one revolution. The Earth revolves around the Sun because of gravity. The Earth really rotates 365 ¼ times during each revolution. The calendar always has 365 days, after every 4 years, the earth has made one extra rotation. How ever, one extra day is added to the month of February once in every four years forming a leap year with 366 days.Revolution of the Earth: The movement of the Earth around the Sun in a fixed orbit is called as revolving. One full orbit around the sun is one revolution. The Earth takes 365 days or 1 year to complete one revolution. The Earth revolves around the Sun because of gravity. The Earth really rotates 365 ¼ times during each revolution. The calendar always has 365 days, after every 4 years, the earth has made one extra rotation. How ever, one extra day is added to the month of February once in every four years forming a leap year with 366 days.
x-Summer SolsticeSummer Solstice
x-Winter SolsticeWinter Solstice
x-Autumnal equinoxAutumnal equinox
x-Spring equinoxSpring equinox
x-climateclimate
x-weatherweather
x-what causes the Seasons to occur?what causes the Seasons to occur?
x-What are the three mechanisms of heat transfer?What are the three mechanisms of heat transfer?