Presentation is loading. Please wait.

Presentation is loading. Please wait.

Spectrometry and Photochemistry Theodore S. Dibble Chemistry Department SUNY-Environmental Science and Forestry Syracuse, NY.

Published byCecily Gardner Modified over 8 years ago

Similar presentations

Presentation on theme: "Spectrometry and Photochemistry Theodore S. Dibble Chemistry Department SUNY-Environmental Science and Forestry Syracuse, NY."— Presentation transcript:

1 Spectrometry and Photochemistry Theodore S. Dibble Chemistry Department SUNY-Environmental Science and Forestry Syracuse, NY

2 Role of Spectrometry and Photochemistry Light flux, F( ), vs. wavelength, altitude, etc. Photochemistry as fate of a molecule Photolysis as radical source Greenhouse gas absorbances Concentration Measurement

3 Beer-Lambert Law Absorbance A= ln (I o /I) base e not base 10 A =  lc  = absorption cross-section (per molecule) cm 2 /molecule (  =   3.8  10 -21 ) c = concentration (molecules cm -3 ) l in cm IoIo I

4 Example Between 40 and 50 km, [O 3 ] ~ 3 x 10 11 molecules cm -3  254 nm = 1.1 x 10 -17 cm 2 molecule -1 Calculate Absorbance over the 10 km (10 6 cm) A = 3.3

5 Light Intensity Solar Zenith Angle – angle from perpendicular (season, time of day, latitude: see Spreadsheet)Spreadsheet Other Factors Clouds Albedo (reflectivity) Eccentricity

6 Why SZA Matters- Pathlength lolo SZA=0  SZA=40  l = l o /cos(SZA) Absorbance & scatter

7 Ozone UV Spectrum Wavelength in nm

8

9 Photolysis Rate Constant, J Solar flux: F( ) Absorption cross section:  ( ) Quantum yield for photolysis:  ( ) (fraction of photons absorbed that cause decomposition) Ozone Photolysis Rate = J O3 [O 3 ]

10 Numerical Integration Spreadsheet: www.esf.edu/chemistry/dibble/fch511/calculateJ.xlswww.esf.edu/chemistry/dibble/fch511/calculateJ.xls Exercise: Calculate J for O 3 or HOOH at ground level Use absorption cross-sections from JPL Data Evaluation #14 Assume  =1

11 Photolytic Production of Radicals O 3 + h → O 2 ( 3  )+ O( 3 P) ground state products O 3 + h → O 2 ( 1  )+ O( 1 D) excited state products O( 1 D) much more reactive than O( 3 P) Rate of production of O( 1 D) = Rate of production of O( 3 P) =

12 Quantum Yield for O ( 1 D) from O 3 Explain the altitude dependence of J(O( 1 D)) vs. J(O( 3 P))

13 Key Points Ozone UV absorption dominates F( ) F( ) depends on SZA Photolysis rate constants readily calculable

Download ppt "Spectrometry and Photochemistry Theodore S. Dibble Chemistry Department SUNY-Environmental Science and Forestry Syracuse, NY."

Similar presentations

Atmospheric chemistry

Atmospheric chemistry
Lecture 6 nitrogen and ozone photochemistry Regions of Light Absorption of Solar Radiation.

Lecture 6 nitrogen and ozone photochemistry Regions of Light Absorption of Solar Radiation.
Electromagnetic Radiation Electromagnetic Spectrum Radiation Laws Atmospheric Absorption Radiation Terminology.

Electromagnetic Radiation Electromagnetic Spectrum Radiation Laws Atmospheric Absorption Radiation Terminology.
Chapter 17 Study Guide Answers

Chapter 17 Study Guide Answers
METO 621 CHEM Lesson 7. Albedo 200 – 400 nm Solar Backscatter Ultraviolet (SBUV) The previous slide shows the albedo of the earth viewed from the nadir.

METO 621 CHEM Lesson 7. Albedo 200 – 400 nm Solar Backscatter Ultraviolet (SBUV) The previous slide shows the albedo of the earth viewed from the nadir.
Photochemistry.

Photochemistry.
Solar Radiation Emission and Absorption

Solar Radiation Emission and Absorption
Morphology of meteoric plasma layers in the ionosphere of Mars as observed by the Mars Global Surveyor Radio Science Experiment Withers, Mendillo, Hinson.

Morphology of meteoric plasma layers in the ionosphere of Mars as observed by the Mars Global Surveyor Radio Science Experiment Withers, Mendillo, Hinson.
Lecture 4 photochemistry What is Photochemistry? Photochemistry: a chemical interaction involving radiation Why mention photochemistry? Photochemistry.

Lecture 4 photochemistry What is Photochemistry? Photochemistry: a chemical interaction involving radiation Why mention photochemistry? Photochemistry.
Outline Further Reading: Chapter 04 of the text book - matter-energy interactions - shortwave radiation balance - longwave radiation balance Natural Environments:

Outline Further Reading: Chapter 04 of the text book - matter-energy interactions - shortwave radiation balance - longwave radiation balance Natural Environments:
PHOTONS IN CHEMISTRY OUT. PHOTONS IN CHEMISTRY OUT WHY BOTHER?

PHOTONS IN CHEMISTRY OUT. PHOTONS IN CHEMISTRY OUT WHY BOTHER?
Handout 3.1-2 (yellow) Solar Energy and the Atmosphere Standard 3 Objective 1 Indicators a, b, and c Standard 3 Objectives 1, 2, and 3 Workbook Pages 3,

Handout (yellow) Solar Energy and the Atmosphere Standard 3 Objective 1 Indicators a, b, and c Standard 3 Objectives 1, 2, and 3 Workbook Pages 3,
METO 621 Lesson 27. Albedo 200 – 400 nm Solar Backscatter Ultraviolet (SBUV) The previous slide shows the albedo of the earth viewed from the nadir.

METO 621 Lesson 27. Albedo 200 – 400 nm Solar Backscatter Ultraviolet (SBUV) The previous slide shows the albedo of the earth viewed from the nadir.
METO 637 LESSON 3. Photochemical Change A quantum of radiative energy is called a photon, and is given the symbol h Hence in a chemical equation we.

METO 637 LESSON 3. Photochemical Change A quantum of radiative energy is called a photon, and is given the symbol h Hence in a chemical equation we.
Solar Energy & the Atmosphere

Solar Energy & the Atmosphere
621 project Spring 2010. project 1. The heating rate is defined as :- Let us assume that the effect of scattering is small, and that in the ultraviolet.

621 project Spring project 1. The heating rate is defined as :- Let us assume that the effect of scattering is small, and that in the ultraviolet.
Fundamentals of air Pollution – Atmospheric Photochemistry - Part A Yaacov Mamane Visiting Scientist NCR, Rome Dec 2006 - May 2007 CNR, Monterotondo, Italy.

Fundamentals of air Pollution – Atmospheric Photochemistry - Part A Yaacov Mamane Visiting Scientist NCR, Rome Dec May 2007 CNR, Monterotondo, Italy.
Spectrochemical Analysis. Electromagnetic Radiation Energy propagated by an electromagnetic field, having both particle and wave nature.

Spectrochemical Analysis. Electromagnetic Radiation Energy propagated by an electromagnetic field, having both particle and wave nature.
Solar and Terrestrial Radiation

Solar and Terrestrial Radiation
Photochemical transformation reactions Direct photolysis = transformation of a compound due to its absorption of UV light Indirect photolysis = transformation.

Photochemical transformation reactions Direct photolysis = transformation of a compound due to its absorption of UV light Indirect photolysis = transformation.

Similar presentations

Ads by Google