University Of Oklahoma
CAGE Code: 3G168
NCAGE Code: 3G168
Status: Active
Type: Commercial Supplier
Dun & Bradstreet (DUNS): 848348348
Summary
University Of Oklahoma is an Active Commercial Supplier with the Cage Code 3G168 and is tracked by Dun & Bradstreet under DUNS Number 848348348..
Address
660 Parrington Oval Rm 301
Norman OK 73019-3003
United States
Points of Contact
- Telephone:
- 4053254757
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Frequently Asked Questions (FAQ) for CAGE 3G168
- What is CAGE Code 3G168?
- 3G168 is the unique identifier used by NATO Organizations to reference the physical entity known as University Of Oklahoma located at 660 Parrington Oval Rm 301, Norman OK 73019-3003, United States.
- Who is CAGE Code 3G168?
- 3G168 refers to University Of Oklahoma located at 660 Parrington Oval Rm 301, Norman OK 73019-3003, United States.
- Where is CAGE Code 3G168 Located?
- CAGE Code 3G168 is located in Norman, OK, USA.
Contracting History for CAGE 3G168 Most Recent 25 Records
- 140G0123C0003
- Warc Portable Doppler Radar Data Collection
- 10 Aug 2023
- Warc Portable Doppler Radar Data Collection
- Ofc Of Acqusition Grants-National
- Department Of The Interior (Doi)
- $497,336.00
- Department Of The Interior (Doi)
- FA865023C5701
- Sustainment And Modernization Research And Development: Operationalizing Additive Manufacturing
- 14 Feb 2023
- Sustainment And Modernization Research And Development: Operationalizing Additive Manufacturing
- Fa8650 Usaf Afmc Afrl Pzl Afrl/Pzl
- Department Of Defense (Dod)
- $8,725,800.00
- Department Of Defense (Dod)
- HR001123C0060
- Resilient Supply-Demand Networks (Rsdn)
- 13 Apr 2023
- Resilient Supply-Demand Networks (Rsdn)
- Def Advanced Research Projects Agcy
- Department Of Defense (Dod)
- $557,000.00
- Department Of Defense (Dod)
- HR001123C0060
- Resilient Supply-Demand Networks (Rsdn)
- 9 May 2023
- Resilient Supply-Demand Networks (Rsdn)
- Def Advanced Research Projects Agcy
- Department Of Defense (Dod)
- $557,000.00
- Department Of Defense (Dod)
- HR001123C0060
- Resilient Supply-Demand Networks (Rsdn)
- 13 Sep 2023
- Resilient Supply-Demand Networks (Rsdn)
- Def Advanced Research Projects Agcy
- Department Of Defense (Dod)
- $997,000.00
- Department Of Defense (Dod)
- HR001123C0060
- Resilient Supply-Demand Networks (Rsdn)
- 26 Jan 2023
- Resilient Supply-Demand Networks (Rsdn)
- Def Advanced Research Projects Agcy
- Department Of Defense (Dod)
- $286,000.00
- Department Of Defense (Dod)
- 140E0122P0019
- Mud Gas Separator, No Cost Extension Mod
- 14 Nov 2023
- Mud Gas Separator, No Cost Extension Mod
- Acquisition Management Division
- Department Of The Interior (Doi)
- $385,330.00
- Department Of The Interior (Doi)
- 140E0122P0019
- Mud Gas Separator, No Cost Extension Mod
- 31 Jul 2023
- Mud Gas Separator, No Cost Extension Mod
- Acquisition Management Division
- Department Of The Interior (Doi)
- $385,330.00
- Department Of The Interior (Doi)
- 140E0122P0019
- Mud Gas Separator, No Cost Extension Mod
- 26 Sep 2023
- Mud Gas Separator, No Cost Extension Mod
- Acquisition Management Division
- Department Of The Interior (Doi)
- $385,330.00
- Department Of The Interior (Doi)
- 140E0122P0019
- Mud Gas Separator
- 13 Jul 2022
- Mud Gas Separator
- Acquisition Management Division
- Department Of The Interior (Doi)
- $385,330.00
- Department Of The Interior (Doi)
- FA875021C0105
- Smart Fusion For Command And Control Operations
- 14 Feb 2022
- Smart Fusion For Command And Control Operations
- Fa8750 Afrl Rik
- Department Of Defense (Dod)
- $610,434.00
- Department Of Defense (Dod)
- FA875021C0105
- Smart Fusion For Command And Control Operations
- 10 Sep 2021
- Smart Fusion For Command And Control Operations
- Fa8750 Afrl Rik
- Department Of Defense (Dod)
- $350,410.00
- Department Of Defense (Dod)
- FA875021C0105
- Smart Fusion For Command And Control Operations
- 22 Sep 2021
- Smart Fusion For Command And Control Operations
- Fa8750 Afrl Rik
- Department Of Defense (Dod)
- $350,410.00
- Department Of Defense (Dod)
- FA875021C0105
- Smart Fusion For Command And Control Operations
- 7 Sep 2022
- Smart Fusion For Command And Control Operations
- Fa8750 Afrl Rik
- Department Of Defense (Dod)
- $610,434.00
- Department Of Defense (Dod)
- FA875021C0105
- Smart Fusion For Command And Control Operations
- 14 Mar 2022
- Smart Fusion For Command And Control Operations
- Fa8750 Afrl Rik
- Department Of Defense (Dod)
- $610,434.00
- Department Of Defense (Dod)
- N6322923F0022
- Retro Tuition And Fees For Eubanks Spr2023
- 1 May 2023
- Retro Tuition And Fees For Eubanks Spr2023
- Nrotcu Univ Of Oklahoma
- Department Of Defense (Dod)
- $6,126.45
- Department Of Defense (Dod)
- N6322921F0002
- Tuition And Fees Spring 2021
- 13 Jul 2021
- Tuition And Fees Spring 2021
- Nrotcu Univ Of Oklahoma
- Department Of Defense (Dod)
- $156,264.30
- Department Of Defense (Dod)
- W564KV13D0015
- Graduate Degree-Human Relations
- 19 Jul 2021
- Graduate Degree-Human Relations
- 0409 Aq Hq Contract
- Department Of Defense (Dod)
- $0.00
- Department Of Defense (Dod)
- N6322923F0012
- Retro Tuition And Fees For Dudley Fall 2022
- 2 May 2023
- Retro Tuition And Fees For Dudley Fall 2022
- Nrotcu Univ Of Oklahoma
- Department Of Defense (Dod)
- $6,577.25
- Department Of Defense (Dod)
- N0018919GZ026
- Educational Service Agreement
- 20 Jun 2019
- Educational Service Agreement
- Navsup Flt Log Ctr Norfolk
- Department Of Defense (Dod)
- $0.00
- Department Of Defense (Dod)
- 80LARC17C0001
- Geostationary Carbon Cycle Observatory (Geocarb) Mission. Nasa Has Selected A First-Of-Its-Kind Earth Science Mission That Will Extend Our Nation's Lead In Measuring Key Greenhouse Gases And Vegetation Health From Space To Advance Our Understanding Of Earth's Natural Exchanges Of Carbon Between The Land, Atmosphere And Ocean. The Principal Investigator (Pi)-Led Mission Will Launch On A Commercial Communications Satellite To Make Observations Over The Americas From An Orbit Of Approximately 22,000 Miles (35,400 Kilometers) Above The Equator. The Mission Was Competitively Selected From 15 Proposals Submitted To The Agency's Second Earth Venture - Mission Announcement Of Opportunity For Small Orbital Investigations Of The Earth System. The Primary Goals Of The Geocarb Mission Are To Monitor Plant Health And Vegetation Stress Throughout The Americas, To Probe, In Unprecedented Detail, The Natural Sources, Sinks And Exchange Processes That Control Carbon Dioxide, Carbon Monoxide And Methane In The Atmosphere, And To Provide Observations And Demonstrate Methods To Realize A Transformational Advance In The Scientific Understanding Of The Global Carbon Cycle. The Geocarb Mission, A Category 3 Mission (Per Npr 7120.5E, Nasa Space Flight Program And Project Management Requirements) With A Class D Payload (Per Npr 8705.4, Risk Classification For Nasa Payloads), Is A Science Investigation With The Primary Objective Of Significantly Improving Knowledge Of Terrestrial Fluxes Of Co2 And Ch4 At Science- And Policy-Relevant Scales. The Geocarb Mission Utilizes A Multi-Channel Slit-Scan Spectrometer Based Instrument That Will Measure Absorption Spectra In Sunlight Reflected From The Ground To Infer The Atmosphere-Column Concentrations Of Co2, Ch4, And Carbon Monoxide (Co). The Instrument Will Also Measure Solar-Induced Fluorescence (Sif), Which Provides Direct Information About Photosynthesis.
- 28 Feb 2022
- Geostationary Carbon Cycle Observatory (Geocarb) Mission. Nasa Has Selected A First-Of-Its-Kind Earth Science Mission That Will Extend Our Nation's Lead In Measuring Key Greenhouse Gases And Vegetation Health From Space To Advance Our Understanding Of Earth's Natural Exchanges Of Carbon Between The Land, Atmosphere And Ocean. The Principal Investigator (Pi)-Led Mission Will Launch On A Commercial Communications Satellite To Make Observations Over The Americas From An Orbit Of Approximately 22,000 Miles (35,400 Kilometers) Above The Equator. The Mission Was Competitively Selected From 15 Proposals Submitted To The Agency's Second Earth Venture - Mission Announcement Of Opportunity For Small Orbital Investigations Of The Earth System. The Primary Goals Of The Geocarb Mission Are To Monitor Plant Health And Vegetation Stress Throughout The Americas, To Probe, In Unprecedented Detail, The Natural Sources, Sinks And Exchange Processes That Control Carbon Dioxide, Carbon Monoxide And Methane In The Atmosphere, And To Provide Observations And Demonstrate Methods To Realize A Transformational Advance In The Scientific Understanding Of The Global Carbon Cycle. The Geocarb Mission, A Category 3 Mission (Per Npr 7120.5E, Nasa Space Flight Program And Project Management Requirements) With A Class D Payload (Per Npr 8705.4, Risk Classification For Nasa Payloads), Is A Science Investigation With The Primary Objective Of Significantly Improving Knowledge Of Terrestrial Fluxes Of Co2 And Ch4 At Science- And Policy-Relevant Scales. The Geocarb Mission Utilizes A Multi-Channel Slit-Scan Spectrometer Based Instrument That Will Measure Absorption Spectra In Sunlight Reflected From The Ground To Infer The Atmosphere-Column Concentrations Of Co2, Ch4, And Carbon Monoxide (Co). The Instrument Will Also Measure Solar-Induced Fluorescence (Sif), Which Provides Direct Information About Photosynthesis.
- Nasa Langley Research Center
- National Aeronautics And Space Administration (Nasa)
- $136,593,253.00
- National Aeronautics And Space Administration (Nasa)
- W912HQ16P0025
- University Of Oklahoma, Er-2623
- 24 Nov 2021
- University Of Oklahoma, Er-2623
- Us Army Humphreys Engineer Ctr Spt
- Department Of Defense (Dod)
- $149,739.58
- Department Of Defense (Dod)
- 80LARC17C0001
- Geostationary Carbon Cycle Observatory (Geocarb) Mission Nasa Has Selected A First-Of-Its-Kind Earth Science Mission That Will Extend Our Nation's Lead In Measuring Key Greenhouse Gases And Vegetation Health From Space To Advance Our Understanding Of Earth's Natural Exchanges Of Carbon Between The Land, Atmosphere And Ocean. The Principal Investigator (Pi)-Led Mission Will Launch On A Commercial Communications Satellite To Make Observations Over The Americas From An Orbit Of Approximately 22,000 Miles (35,400 Kilometers) Above The Equator. The Mission Was Competitively Selected From 15 Proposals Submitted To The Agency's Second Earth Venture - Mission Announcement Of Opportunity For Small Orbital Investigations Of The Earth System. The Primary Goals Of The Geocarb Mission Are To Monitor Plant Health And Vegetation Stress Throughout The Americas, To Probe, In Unprecedented Detail, The Natural Sources, Sinks And Exchange Processes That Control Carbon Dioxide, Carbon Monoxide And Methane In The Atmosphere, And To Provide Observations And Demonstrate Methods To Realize A Transformational Advance In The Scientific Understanding Of The Global Carbon Cycle. The Geocarb Mission, A Category 3 Mission (Per Npr 7120.5E, Nasa Space Flight Program And Project Management Requirements) With A Class D Payload (Per Npr 8705.4, Risk Classification For Nasa Payloads), Is A Science Investigation With The Primary Objective Of Significantly Improving Knowledge Of Terrestrial Fluxes Of Co2 And Ch4 At Science- And Policy-Relevant Scales. The Geocarb Mission Utilizes A Multi-Channel Slit-Scan Spectrometer Based Instrument That Will Measure Absorption Spectra In Sunlight Reflected From The Ground To Infer The Atmosphere-Column Concentrations Of Co2, Ch4, And Carbon Monoxide (Co). The Instrument Will Also Measure Solar-Induced Fluorescence (Sif), Which Provides Direct Information About Photosynthesis. The Contractor And Its Team Members Will Perform The Full Nasa Life Cycle Formulation And Implementation Phases A Through F. The Geocarb Proposal Was Selected Under The Nasa Announcement Of Opportunity Nnh15zda011o For The Earth Venture Mission - 2 Element Of The Earth System Science Pathfinder Program Offices Earth Venture Line.
- 31 Oct 2022
- Geostationary Carbon Cycle Observatory (Geocarb) Mission Nasa Has Selected A First-Of-Its-Kind Earth Science Mission That Will Extend Our Nation's Lead In Measuring Key Greenhouse Gases And Vegetation Health From Space To Advance Our Understanding Of Earth's Natural Exchanges Of Carbon Between The Land, Atmosphere And Ocean. The Principal Investigator (Pi)-Led Mission Will Launch On A Commercial Communications Satellite To Make Observations Over The Americas From An Orbit Of Approximately 22,000 Miles (35,400 Kilometers) Above The Equator. The Mission Was Competitively Selected From 15 Proposals Submitted To The Agency's Second Earth Venture - Mission Announcement Of Opportunity For Small Orbital Investigations Of The Earth System. The Primary Goals Of The Geocarb Mission Are To Monitor Plant Health And Vegetation Stress Throughout The Americas, To Probe, In Unprecedented Detail, The Natural Sources, Sinks And Exchange Processes That Control Carbon Dioxide, Carbon Monoxide And Methane In The Atmosphere, And To Provide Observations And Demonstrate Methods To Realize A Transformational Advance In The Scientific Understanding Of The Global Carbon Cycle. The Geocarb Mission, A Category 3 Mission (Per Npr 7120.5E, Nasa Space Flight Program And Project Management Requirements) With A Class D Payload (Per Npr 8705.4, Risk Classification For Nasa Payloads), Is A Science Investigation With The Primary Objective Of Significantly Improving Knowledge Of Terrestrial Fluxes Of Co2 And Ch4 At Science- And Policy-Relevant Scales. The Geocarb Mission Utilizes A Multi-Channel Slit-Scan Spectrometer Based Instrument That Will Measure Absorption Spectra In Sunlight Reflected From The Ground To Infer The Atmosphere-Column Concentrations Of Co2, Ch4, And Carbon Monoxide (Co). The Instrument Will Also Measure Solar-Induced Fluorescence (Sif), Which Provides Direct Information About Photosynthesis. The Contractor And Its Team Members Will Perform The Full Nasa Life Cycle Formulation And Implementation Phases A Through F. The Geocarb Proposal Was Selected Under The Nasa Announcement Of Opportunity Nnh15zda011o For The Earth Venture Mission - 2 Element Of The Earth System Science Pathfinder Program Offices Earth Venture Line.
- Nasa Langley Research Center
- National Aeronautics And Space Administration (Nasa)
- $160,359,253.00
- National Aeronautics And Space Administration (Nasa)
- 80LARC17C0001
- Geostationary Carbon Cycle Observatory (Geocarb) Mission. Nasa Has Selected A First-Of-Its-Kind Earth Science Mission That Will Extend Our Nation's Lead In Measuring Key Greenhouse Gases And Vegetation Health From Space To Advance Our Understanding Of Earth's Natural Exchanges Of Carbon Between The Land, Atmosphere And Ocean. The Principal Investigator (Pi)-Led Mission Will Launch On A Commercial Communications Satellite To Make Observations Over The Americas From An Orbit Of Approximately 22,000 Miles (35,400 Kilometers) Above The Equator. The Mission Was Competitively Selected From 15 Proposals Submitted To The Agency's Second Earth Venture - Mission Announcement Of Opportunity For Small Orbital Investigations Of The Earth System. The Primary Goals Of The Geocarb Mission Are To Monitor Plant Health And Vegetation Stress Throughout The Americas, To Probe, In Unprecedented Detail, The Natural Sources, Sinks And Exchange Processes That Control Carbon Dioxide, Carbon Monoxide And Methane In The Atmosphere, And To Provide Observations And Demonstrate Methods To Realize A Transformational Advance In The Scientific Understanding Of The Global Carbon Cycle. The Geocarb Mission, A Category 3 Mission (Per Npr 7120.5E, Nasa Space Flight Program And Project Management Requirements) With A Class D Payload (Per Npr 8705.4, Risk Classification For Nasa Payloads), Is A Science Investigation With The Primary Objective Of Significantly Improving Knowledge Of Terrestrial Fluxes Of Co2 And Ch4 At Science- And Policy-Relevant Scales. The Geocarb Mission Utilizes A Multi-Channel Slit-Scan Spectrometer Based Instrument That Will Measure Absorption Spectra In Sunlight Reflected From The Ground To Infer The Atmosphere-Column Concentrations Of Co2, Ch4, And Carbon Monoxide (Co). The Instrument Will Also Measure Solar-Induced Fluorescence (Sif), Which Provides Direct Information About Photosynthesis. The Contractor And Its Team Members Will Perform The Full Nasa Life Cycle Formulation And Implementation Phases A Through F. The Geocarb Proposal Was Selected Under The Nasa Announcement Of Opportunity Nnh15zda011o For The Earth Venture Mission - 2 Element Of The Earth System Science Pathfinder Program Offices Earth Venture Line.
- 16 Sep 2022
- Geostationary Carbon Cycle Observatory (Geocarb) Mission. Nasa Has Selected A First-Of-Its-Kind Earth Science Mission That Will Extend Our Nation's Lead In Measuring Key Greenhouse Gases And Vegetation Health From Space To Advance Our Understanding Of Earth's Natural Exchanges Of Carbon Between The Land, Atmosphere And Ocean. The Principal Investigator (Pi)-Led Mission Will Launch On A Commercial Communications Satellite To Make Observations Over The Americas From An Orbit Of Approximately 22,000 Miles (35,400 Kilometers) Above The Equator. The Mission Was Competitively Selected From 15 Proposals Submitted To The Agency's Second Earth Venture - Mission Announcement Of Opportunity For Small Orbital Investigations Of The Earth System. The Primary Goals Of The Geocarb Mission Are To Monitor Plant Health And Vegetation Stress Throughout The Americas, To Probe, In Unprecedented Detail, The Natural Sources, Sinks And Exchange Processes That Control Carbon Dioxide, Carbon Monoxide And Methane In The Atmosphere, And To Provide Observations And Demonstrate Methods To Realize A Transformational Advance In The Scientific Understanding Of The Global Carbon Cycle. The Geocarb Mission, A Category 3 Mission (Per Npr 7120.5E, Nasa Space Flight Program And Project Management Requirements) With A Class D Payload (Per Npr 8705.4, Risk Classification For Nasa Payloads), Is A Science Investigation With The Primary Objective Of Significantly Improving Knowledge Of Terrestrial Fluxes Of Co2 And Ch4 At Science- And Policy-Relevant Scales. The Geocarb Mission Utilizes A Multi-Channel Slit-Scan Spectrometer Based Instrument That Will Measure Absorption Spectra In Sunlight Reflected From The Ground To Infer The Atmosphere-Column Concentrations Of Co2, Ch4, And Carbon Monoxide (Co). The Instrument Will Also Measure Solar-Induced Fluorescence (Sif), Which Provides Direct Information About Photosynthesis. The Contractor And Its Team Members Will Perform The Full Nasa Life Cycle Formulation And Implementation Phases A Through F. The Geocarb Proposal Was Selected Under The Nasa Announcement Of Opportunity Nnh15zda011o For The Earth Venture Mission - 2 Element Of The Earth System Science Pathfinder Program Offices Earth Venture Line.
- Nasa Langley Research Center
- National Aeronautics And Space Administration (Nasa)
- $150,359,253.00
- National Aeronautics And Space Administration (Nasa)
- 80LARC17C0001
- Geostationary Carbon Cycle Observatory (Geocarb) Mission. Nasa Has Selected A First-Of-Its-Kind Earth Science Mission That Will Extend Our Nation's Lead In Measuring Key Greenhouse Gases And Vegetation Health From Space To Advance Our Understanding Of Earth's Natural Exchanges Of Carbon Between The Land, Atmosphere And Ocean. The Principal Investigator (Pi)-Led Mission Will Launch On A Commercial Communications Satellite To Make Observations Over The Americas From An Orbit Of Approximately 22,000 Miles (35,400 Kilometers) Above The Equator. The Mission Was Competitively Selected From 15 Proposals Submitted To The Agency's Second Earth Venture - Mission Announcement Of Opportunity For Small Orbital Investigations Of The Earth System. The Primary Goals Of The Geocarb Mission Are To Monitor Plant Health And Vegetation Stress Throughout The Americas, To Probe, In Unprecedented Detail, The Natural Sources, Sinks And Exchange Processes That Control Carbon Dioxide, Carbon Monoxide And Methane In The Atmosphere, And To Provide Observations And Demonstrate Methods To Realize A Transformational Advance In The Scientific Understanding Of The Global Carbon Cycle. The Geocarb Mission, A Category 3 Mission (Per Npr 7120.5E, Nasa Space Flight Program And Project Management Requirements) With A Class D Payload (Per Npr 8705.4, Risk Classification For Nasa Payloads), Is A Science Investigation With The Primary Objective Of Significantly Improving Knowledge Of Terrestrial Fluxes Of Co2 And Ch4 At Science- And Policy-Relevant Scales. The Geocarb Mission Utilizes A Multi-Channel Slit-Scan Spectrometer Based Instrument That Will Measure Absorption Spectra In Sunlight Reflected From The Ground To Infer The Atmosphere-Column Concentrations Of Co2, Ch4, And Carbon Monoxide (Co). The Instrument Will Also Measure Solar-Induced Fluorescence (Sif), Which Provides Direct Information About Photosynthesis. The Contractor And Its Team Members Will Perform The Full Nasa Life Cycle Formulation And Implementation Phases A Through F. The Geocarb Proposal Was Selected Under The Nasa Announcement Of Opportunity Nnh15zda011o For The Earth Venture Mission - 2 Element Of The Earth System Science Pathfinder Program Offices Earth Venture Line.
- 23 Sep 2021
- Geostationary Carbon Cycle Observatory (Geocarb) Mission. Nasa Has Selected A First-Of-Its-Kind Earth Science Mission That Will Extend Our Nation's Lead In Measuring Key Greenhouse Gases And Vegetation Health From Space To Advance Our Understanding Of Earth's Natural Exchanges Of Carbon Between The Land, Atmosphere And Ocean. The Principal Investigator (Pi)-Led Mission Will Launch On A Commercial Communications Satellite To Make Observations Over The Americas From An Orbit Of Approximately 22,000 Miles (35,400 Kilometers) Above The Equator. The Mission Was Competitively Selected From 15 Proposals Submitted To The Agency's Second Earth Venture - Mission Announcement Of Opportunity For Small Orbital Investigations Of The Earth System. The Primary Goals Of The Geocarb Mission Are To Monitor Plant Health And Vegetation Stress Throughout The Americas, To Probe, In Unprecedented Detail, The Natural Sources, Sinks And Exchange Processes That Control Carbon Dioxide, Carbon Monoxide And Methane In The Atmosphere, And To Provide Observations And Demonstrate Methods To Realize A Transformational Advance In The Scientific Understanding Of The Global Carbon Cycle. The Geocarb Mission, A Category 3 Mission (Per Npr 7120.5E, Nasa Space Flight Program And Project Management Requirements) With A Class D Payload (Per Npr 8705.4, Risk Classification For Nasa Payloads), Is A Science Investigation With The Primary Objective Of Significantly Improving Knowledge Of Terrestrial Fluxes Of Co2 And Ch4 At Science- And Policy-Relevant Scales. The Geocarb Mission Utilizes A Multi-Channel Slit-Scan Spectrometer Based Instrument That Will Measure Absorption Spectra In Sunlight Reflected From The Ground To Infer The Atmosphere-Column Concentrations Of Co2, Ch4, And Carbon Monoxide (Co). The Instrument Will Also Measure Solar-Induced Fluorescence (Sif), Which Provides Direct Information About Photosynthesis. The Contractor And Its Team Members Will Perform The Full Nasa Life Cycle Formulation And Implementation Phases A Through F. The Geocarb Proposal Was Selected Under The Nasa Announcement Of Opportunity Nnh15zda011o For The Earth Venture Mission - 2 Element Of The Earth System Science Pathfinder Program Offices Earth Venture Line.
- Nasa Langley Research Center
- National Aeronautics And Space Administration (Nasa)
- $135,793,253.00
- National Aeronautics And Space Administration (Nasa)