Part 1. Energy and Mass - PowerPoint PPT Presentation

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Part 1. Energy and Mass

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Title: Understanding Weather and Climate Ch 2 Author: Anthony J. Vega Last modified by: ytang Created Date: 12/18/2000 12:31:17 AM Document presentation format – PowerPoint PPT presentation

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Title: Part 1. Energy and Mass


1
Part 1. Energy and Mass
  • Chapter 2.
  • Solar Radiation and the Seasons

2
Introduction
  • Solar Radiation
  • Initiates atmospheric motions and weather
    processes
  • Energy Classified as
  • Kinetic or potential

3
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4
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5
  • Intensity and Wavelengths of Emitted Radiation
  • Energy radiated over many wavelengths
  • Physical laws define the amount and wavelength of
    emitted energy
  • Blackbodies hypothetical perfect emitters

6
  • Stefan-Boltzmann Law
  • Energy emitted is proportional to temperature
  • Hotter objects emit more energy
  • I ?T4
  • Graybodies emit a percentage of the maximum
    possible for a temperature
  • I e?T4

7
  • Weins Law
  • Determines peak wavelength
  • ?max 2900/T
  • Hotter objects shorter wavelengths
  • Solar radiation 0.5?m peak ?
  • Terrestrial radiation 10?m peak ?

8
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9
  • The Solar Constant
  • Energy intensity decreases in proportion to the
    distance squared
  • Inverse square law
  • Solar emission
  • 3.865x1026W /4?(1.5x1011m)2 1367 W/m2

10
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11
  • Causes of the Earths Seasons
  • Orbital alignment to the Sun seasonal
    variations in solar energy
  • Revolution
  • The ecliptic plane
  • Perihelion (Jan 3 147 mil km, 91 mil mi)
  • Aphelion (July 3 152 mil km, 94 mil mi)
  • Seasonal radiation variation 7

12
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13
  • Earth Rotation
  • Once every 24 hours
  • Rotational axis offset by 23.5o
  • Axis is fixed
  • Changes hemispheric orientation through orbit
  • Causes seasons

14
Extreme Hypothetical Axis Orientation
15
  • Solstices
  • Maximum axial tilt in relation to the Sun
  • June and December
  • Hemispheric axes inclined toward or away from Sun
  • Causes maximum or minimum solar radiation receipt

16
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17
  • June Solstice ( June 21)
  • Subsolar point Tropic of Cancer (23.5oN)
  • December Solstice ( Dec. 21)
  • Subsolar point Tropic of Capricorn (23.5oS)
  • Subsolar Point Migrates 47o
  • Between the Tropics

18
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19
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20
  • Equinoxes
  • Temporally centered between solstices
  • March 21 and Sept 21
  • The subsolar point 0o

21
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22
  • Solar Angle
  • Radiation is proportional to solar angle
  • Higher angles equal reduced beam spreading
    greater heating

Angle of incidence
23
  • Period of Daylight
  • Circle of illumination unequally bisects
    latitudes
  • Day length changes across latitudes
  • Latitudes are equally split everywhere on
    equinoxes

24
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25
Lower Angles Increased Path Length
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