- Layers of various gases / envelope of air spread around the Earth
| Gas | % (Volume) |
| Nitrogen | 78 |
| Oxygen | 21 |
| Argon | 0.93 |
| Carbon Dioxide | 0.03 |
| Neon | 0.0018 |
| Helium | 0.0005 |
| Ozone | 0.000004 |
Water Vapour
- Up to 0โ4% 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)
โก Quick Recall
Nitrogen (78%) + Oxygen (21%) together make up ~99% of the atmosphere's dry composition.
Troposphere0โ18 km
StratosphereUp to 50 km
MesosphereUp to 80 km
Ionosphere / Thermosphere80โ640 km
ExosphereAbove 640 km
- Height: 0โ18 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
- 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
- Up to 80 km
- Decrease in temperature with increasing height
- Coldest layer of the atmosphere
- Burning up of meteoroids occurs here
- 80โ640 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)
- From Thermosphere to about 10,000 km
- Composed mainly of Hydrogen (Hโ) and Helium (He) gases
๐ Karman Line (100 km)
Line separating atmosphere from outer space
โ 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.
- 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
- 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)
โก Quick Recall
Montreal Protocol โ targets CFCs ยท Kigali Amendment (an amendment to Montreal Protocol) โ targets HFCs
- 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 โข Deserts โ maximum
- Latitude
- Conditions of the atmosphere
- Day length
- Transparency of atmosphere
- Sunspots
- Distance between Earth and Sun
โ 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.
- 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%
- Amount of light reflected from any surface or object
- Earth's average surface albedo value โ 23% to 34%
- Maximum Albedo โ Ice / Glacier (40โ70%)
- Albedo of Dry sand โ 35โ45%
โก Quick Recall
Higher Albedo = More reflection, less absorption โ Ice/Snow (highest albedo) stays cooler.
| Process | Key Details |
| Conduction | Transfer of heat from higher to lower temperature โข Heating of lower layers of atmosphere |
| Convection | Vertical transfer of heat โข Vertical heating of atmosphere |
| Radiation | Heating through transmission of heat waves โข Earth's heating from solar radiation |
| Advection | Horizontal transfer of heat โข 'Loo' is the result of advection |
โ 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.
- 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
- 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
โก Quick Recall
Temperature Inversion is exactly the opposite of the normal Lapse Rate (normally temperature falls with height in the Troposphere).