ATMOSPHERE Composition of the Atmosphere The atmosphere is comprised of a variety of gases Major Constituents 99 Nitrogen N 78 Oxygen O 2 21 Trace Constituents Other 1 ID: 772046
Download Presentation The PPT/PDF document "ATMOSPHERE Composition of the Atmosphere" is the property of its rightful owner. Permission is granted to download and print the materials on this web site for personal, non-commercial use only, and to display it on your personal computer provided you do not modify the materials and that you retain all copyright notices contained in the materials. By downloading content from our website, you accept the terms of this agreement.
ATMOSPHERE
Composition of the Atmosphere The atmosphere is comprised of a variety of gases: Major Constituents (99%): Nitrogen (N): 78% Oxygen (O2): 21% Trace Constituents: Other: 1%
Recycling of Atmospheric Materials
Movement of Heat Energy Radiation : the transfer of energy through space in the form electromagnetic waves. Convection: the transfer of heat energy in a liquid or gas through the motion caused by differences in density.Conduction: the transfer of heat energy through collisions of the atoms or molecules of a substance.
Heat and Temperature Temperature : is a measure of the average kinetic energy of atoms or molecules in the substance.Heat: the total kinetic energy of all of the particles of the substance.
Troposphere: The lowest region of the atmosphere (0 to 15 km altitude) Where weather occursIt contains 99% of the water vapor and 75% of the atmospheric gases Temperature decreases with altitude. Top of the troposphere is known as the tropopause
Stratosphere 15 to 50 km altitude Heating occurs because ozone (O3) absorbs ultraviolet radiation from the Sun. Temperature increases with altitude due to ozone absorbing ultraviolet radiation. Top of the stratosphere is known as the stratopause
Mesosphere 50 to 90 km altitude Temperature decreases with altitudeThe lowest temperatures in the entire atmosphere are found in this layer Top of the mesosphere is known as the mesopause
Thermosphere 90 to 500 km altitudeTemperature increases with altitude above 90 km, and is constant above 200 km. heating is due to absorption of solar radiation.The highest temperatures in the atmosphere found in this layer
Ionosphere : Occurs within the mesosphere and thermosphere between 90 and 500 km.Layer of electrically charged particlesEffected by solar eventsAuroras ( Northern and Southern lights).
Exosphere: The exosphere is the outer most layer of the atmosphere. The temperature in the exosphere goes up with altitude. Satellites orbit Earth in the exosphere
Insolation and the Atmosphere Insolation: incoming solar radiation.some solar radiation is absorbed by gases in the atmospheresome solar radiation reaches the Earth’s surface some solar radiation is scattered in the atmosphere and is returned to space
Heat Budget of Earth and the Atmosphere 50% of solar radiation reaches the Earth’s surfaceSmall % of insolation is absorbed by the atmosphereEnergy is transferred by radiationconductionevaporation condensation of waterenergy transfer is the major cause of Earth’s weather
Heat Budget of Earth and the Atmosphere carbon dioxide and water vapor absorbs most of the infrared radiation prevents energy from radiating back into space creating the Greenhouse effect.Without the Greenhouse Effect, Most of the heat energy would be lost to spaceEarth’s average temperature would be about 33oC cooler.increased levels of carbon dioxide (CO2) in the atmosphere Could cause the Earth’s heat budget be out of balance Causes Global Warming.
Temperature variations due to Insolation intensity of insolation varies due to:time of daylatitude time of year.Color affects how much insolation is absorbed and how the absorbed energy affects the temperature
Intensity of Insolation Intensity of insolation is depended on the angle at which the sun’s rays strike Earth’s surface.the sun at 90o, Earth receives the maximum amount of energy.Occurs at noon, Earth’s surface heats up quicklyAs the angle of insolation decreases the amount of energy received decreases
intensity of insolation is affected by the latitude. closer to the equator the sun’s rays are almost vertical, climate is hotterMoving either north or south of the equator the angle of insolation decreases, the energy spreads out over a larger area, climate is colderIntensity of Insolation
At mid-latitudes sun ray’s nearly vertical in the summer; summers are hot. winter the angle of insolation is at its lowest; winters are cold. Northern Hemispheregreatest angle of insolation occurs around Jun 21, thus July is the warmest month of the year. lowest angle of insolation occurs around December 21, thus January is the coldest month.The southern hemisphere is the reverseIntensity of Insolation
The affect of the insolation on sea-level temperatures in January and July. What changes do you notice?
Human Impact on the Atmosphere
Acid Rain Forms due to pollutants sulfur dioxide and nitrogen dioxide react with water vaporAcidity is measured by pH. The lower the pH the more acidic the rain.
Smog Temperature inversion: when the temperature at the Earth’s surface is cooler than the air above it, convection does not occur
Hole in Ozone layer due to pollution of chloroflurocarbons (CFCs).Greatly reduced due to the elimination of CFCs.Thin Ozone/Hole forms each spring over Antarctica.Thinning Ozone/hole allows for exposure to ultraviolent radiation which is dangerous to living things. Ozone Depletion