๐ŸŒซ๏ธ ATMOSPHERE World Geography ยท Ch 15

BPSC / BSSC โ€” World Geography Mind Map Series

๐ŸŒ Atmosphere
  • Layers of various gases / envelope of air spread around the Earth
๐Ÿงช Composition of Atmosphere
Gas% (Volume)
Nitrogen78
Oxygen21
Argon0.93
Carbon Dioxide0.03
Neon0.0018
Helium0.0005
Ozone0.000004

Water Vapour

  • Up to 0โ€“4% of atmosphere
  • Responsible for Clouds, Rain, Fog
  • Responsible for Earth's heat retention

Dust Particles

  • Act as humidity-sensing / condensation centres
  • Responsible for making the sky appear blue (scattering)
โšก Quick Recall
Nitrogen (78%) + Oxygen (21%) together make up ~99% of the atmosphere's dry composition.
๐ŸŒ Layers of Atmosphere
Troposphere0โ€“18 km
StratosphereUp to 50 km
MesosphereUp to 80 km
Ionosphere / Thermosphere80โ€“640 km
ExosphereAbove 640 km
๐ŸŒฆ๏ธ Troposphere
  • Height: 0โ€“18 km (Pole: 8 km, Equator: 18 km, Average: 13 km)
  • Lowest layer of atmosphere
  • All weather phenomena occur here
  • Normal Lapse Rate of temperature: 1 km โ†’ 6.5ยฐC decrease
  • Tropopause: boundary separating Troposphere and Stratosphere
โœˆ๏ธ Stratosphere
  • Up to 50 km
  • Increase in temperature with height
  • Temperature stable up to 20 km
  • Suitable for airplane flight
  • "Mother of Pearl" clouds present here
โ˜„๏ธ Mesosphere
  • Up to 80 km
  • Decrease in temperature with increasing height
  • Coldest layer of the atmosphere
  • Burning up of meteoroids occurs here
๐Ÿ“ก Ionosphere / Thermosphere
  • 80โ€“640 km
  • Increase in temperature with increasing height โ€” hottest layer
  • Reflection of radio waves
  • Red glow of Aurora at poles
  • Northern Lights (Aurora Borealis) and Southern Lights (Aurora Australis)
๐ŸŒŒ Exosphere
  • From Thermosphere to about 10,000 km
  • Composed mainly of Hydrogen (Hโ‚‚) and Helium (He) gases
๐Ÿ“Œ Karman Line (100 km) Line separating atmosphere from outer space
โš  Exam Trap
Temperature decreases with height in Troposphere and Mesosphere, but increases with height in Stratosphere and Thermosphere โ€” the pattern alternates layer by layer.
๐Ÿ›ก๏ธ Ozone Layer (15โ€“35 km, in Stratosphere)
  • Protects Earth from the Sun's ultraviolet rays
  • Maximum concentration โ€“ 22 km height
  • Measurement unit โ€“ Dobson unit
  • Maximum depletion โ€“ Over South Pole (Antarctica)
16 Sep
Ozone Day (since 1987)
22 km
Maximum Concentration Height
๐Ÿ•ณ๏ธ Ozone Depletion & Protection
  • Depletion โ€“ Thinning / Hole in the ozone layer
  • Montreal Protocol (Canada) โ†’ Aims to reduce CFCs (Chlorofluorocarbons)
  • Kigali Amendment โ†’ Aims to reduce HFCs (Hydrofluorocarbons)
โšก Quick Recall
Montreal Protocol โ†’ targets CFCs ยท Kigali Amendment (an amendment to Montreal Protocol) โ†’ targets HFCs
โ˜€๏ธ Insolation
  • Solar radiation energy received from the Sun
  • Aphelion (4 July): Relatively receives less insolation
  • Perihelion (3 January): Relatively receives more insolation
  • Equator โ€“ comparatively less โ€ข Deserts โ€“ maximum
๐Ÿงญ Factors Affecting Insolation
  • Latitude
  • Conditions of the atmosphere
  • Day length
  • Transparency of atmosphere
  • Sunspots
  • Distance between Earth and Sun
โš  Exam Trap
Deserts receive more insolation than the Equator, despite the Equator getting more direct sunlight overall โ€” because deserts have clear skies and low humidity/cloud cover, allowing more solar radiation to reach the surface.
โš–๏ธ Heat Budget
  • Balance of temperature (Earth not getting excessively hot or cold)
  • Average temperature of Earth โ€“ 15ยฐC
  • Solar radiation / amount of energy received by Earth's surface โ€“ ~51%
๐Ÿชž Albedo
  • Amount of light reflected from any surface or object
  • Earth's average surface albedo value โ€“ 23% to 34%
  • Maximum Albedo โ€“ Ice / Glacier (40โ€“70%)
  • Albedo of Dry sand โ€“ 35โ€“45%
โšก Quick Recall
Higher Albedo = More reflection, less absorption โ†’ Ice/Snow (highest albedo) stays cooler.
๐Ÿ”ฅ Heating and Cooling of the Atmosphere
ProcessKey Details
ConductionTransfer of heat from higher to lower temperature โ€ข Heating of lower layers of atmosphere
ConvectionVertical transfer of heat โ€ข Vertical heating of atmosphere
RadiationHeating through transmission of heat waves โ€ข Earth's heating from solar radiation
AdvectionHorizontal transfer of heat โ€ข 'Loo' is the result of advection
โš  Exam Trap
Convection = vertical heat transfer; Advection = horizontal heat transfer โ€” the hot "Loo" winds of North India are a classic example of Advection, not Convection.
๐ŸŒก๏ธ Temperature Variation
  • Causes: Latitude, Distance from sea, Ocean Currents, Altitude, Air circulation, Local factors
  • Isotherms: Lines connecting places having equal temperature
  • Temperature Range: Difference between maximum and minimum temperature
๐Ÿ”„ Temperature Inversion
  • Lower layer of air is cold and upper layer is warm (reversal of the normal pattern)

Favourable Conditions

  • Dry and Calm air
  • Long cold nights
  • Cloudless and clear sky
  • Stability in atmosphere

Effects

  • Formation of toxic fog / smog in industrial areas
โšก Quick Recall
Temperature Inversion is exactly the opposite of the normal Lapse Rate (normally temperature falls with height in the Troposphere).
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