Events
t
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/Lognormal_fitting_2.xls|Excel sheet for fitting lognormal distribution]]
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/AEROSOL_DYNAMICS.tgz|Peter's aerosol dynamics GUI for Matlab (8.5Mb)]]
MCRInstaller.exe|Matlab 2014b runtime engine for x64]]
On this map of the campus, the physics institute is #27: [[http://www.usp.br/mapas/mapas/pdf/cidadeuniversitaria.pdf]]
Maps and instructions to get to Henrique's and Paulo's offices: [[http://www.fap.if.usp.br/~hbarbosa/uploads/Site/Personal/Map_LFA_offices.pdf|Download Map]]
Sala 105, Ed. Basílio Jafet, \\
The course will take place on room 105, Ed. Basílio Jafet. This is the same building where prof. Paulo and Henrique have their office. To get there, see these instructions:
[+Universidade de São Paulo & Universitet Stockholms+]
!Course on atmospheric aerosols and clouds with introduction to process oriented modeling
!16 – 27 March 2015
2015 Summer Course
Events.2015SummerCourse History
Show minor edits - Show changes to output
Changed lines 52-60 from:
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L0_Artaxo_Aerosols_Climate.pdf|L0: Aerosols and Climate - Course intro (Artaxo)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L1_L2_Tunved_aerosol_physics.pdf|L1 and L2: Aerosol microphysics and dynamics (P. Tunved)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L3_Phyllips_cloud_physics1.pdf|L3: Cloud microphysics and properties (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L4_Phyllips_cloud_physics2.pdf|L4: Cloud microphysics and properties (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L5_Phyllips_cloud_physics3.pdf|L5: Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L6_Phyllips_cloud_physics4.pdf|L6: Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L7_Phyllips_cloud_physics5.pdf|L7 Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L8_Phyllips_cloud_physics6.pdf|L8 Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L9_L10_Krejci_aerosol_clouds.pdf|L9 and L10: Aerosol-cloud interactions (R. Krejci)]]
*[[
*[[
*[[
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to:
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L0_Artaxo_Aerosols_Climate.pdf|L0: Aerosols and Climate - Course intro (Artaxo)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L1_L2_Tunved_aerosol_physics.pdf|L1 and L2: Aerosol microphysics and dynamics (P. Tunved)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L3_Phyllips_cloud_physics1.pdf|L3: Cloud microphysics and properties (V. Phillips)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L4_Phyllips_cloud_physics2.pdf|L4: Cloud microphysics and properties (V. Phillips)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L5_Phyllips_cloud_physics3.pdf|L5: Introduction to cloud modelling (V. Phillips)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L6_Phyllips_cloud_physics4.pdf|L6: Introduction to cloud modelling (V. Phillips)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L7_Phyllips_cloud_physics5.pdf|L7 Introduction to cloud modelling (V. Phillips)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L8_Phyllips_cloud_physics6.pdf|L8 Introduction to cloud modelling (V. Phillips)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L9_L10_Krejci_aerosol_clouds.pdf|L9 and L10: Aerosol-cloud interactions (R. Krejci)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L1_L2_Tunved_aerosol_physics.pdf|L1 and L2: Aerosol microphysics and dynamics (P. Tunved)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L3_Phyllips_cloud_physics1.pdf|L3: Cloud microphysics and properties (V. Phillips)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L4_Phyllips_cloud_physics2.pdf|L4: Cloud microphysics and properties (V. Phillips)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L5_Phyllips_cloud_physics3.pdf|L5: Introduction to cloud modelling (V. Phillips)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L6_Phyllips_cloud_physics4.pdf|L6: Introduction to cloud modelling (V. Phillips)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L7_Phyllips_cloud_physics5.pdf|L7 Introduction to cloud modelling (V. Phillips)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L8_Phyllips_cloud_physics6.pdf|L8 Introduction to cloud modelling (V. Phillips)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L9_L10_Krejci_aerosol_clouds.pdf|L9 and L10: Aerosol-cloud interactions (R. Krejci)]]
Changed lines 62-65 from:
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L12_Rizzo_Amazonian_aerosols.pdf|L12: Atmospheric aerosols in Amazonia (Rizzo)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L13_Barbosa_Aerosols_clouds_amazon.pdf|L13: Aerosols and clouds over Amazonia (Barbosa)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L14_Artaxo_AmazonianAerosols_Climate.pdf|L14: Role of Amazonia in Earth climate (Artaxo)]]
*[[
*[[
to:
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L12_Rizzo_Amazonian_aerosols.pdf|L12: Atmospheric aerosols in Amazonia (Rizzo)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L13_Barbosa_Aerosols_clouds_amazon.pdf|L13: Aerosols and clouds over Amazonia (Barbosa)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L14_Artaxo_AmazonianAerosols_Climate.pdf|L14: Role of Amazonia in Earth climate (Artaxo)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L13_Barbosa_Aerosols_clouds_amazon.pdf|L13: Aerosols and clouds over Amazonia (Barbosa)]]
*[[http://lfa.if.usp.br/ftp/public/2015SummerCourse/pdf/L14_Artaxo_AmazonianAerosols_Climate.pdf|L14: Role of Amazonia in Earth climate (Artaxo)]]
Changed lines 108-109 from:
The course files are located on our FTP server: [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/]]
to:
The course files are located on our FTP server: [[http://lfa.if.usp.br/ftp/public/2015SummerCourse/]]
Changed lines 112-113 from:
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/MCRInstaller.exe|Matlab 2014b runtime engine for x64 (701Mb)]]
to:
* [[http://lfa.if.usp.br/ftp/public/2015SummerCourse/MCRInstaller.exe|Matlab 2014b runtime engine for x64 (701Mb)]]
Changed lines 116-123 from:
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/AEROSOL_DYNAMICS.tgz|Peter's aerosol dynamics (8.5Mb)]]
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/Radiative_transfer_SBDART.tgz|Peter's radiative transfer with SBDART (111Mb)]]
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/GUI.zip|Peter's GUI executable (3.5Mb)]]
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/Lognormal_fitting_2.xls|Excel sheet for fitting lognormal distribution]]
* [[
* [[
* [[
to:
* [[http://lfa.if.usp.br/ftp/public/2015SummerCourse/AEROSOL_DYNAMICS.tgz|Peter's aerosol dynamics (8.5Mb)]]
* [[http://lfa.if.usp.br/ftp/public/2015SummerCourse/Radiative_transfer_SBDART.tgz|Peter's radiative transfer with SBDART (111Mb)]]
* [[http://lfa.if.usp.br/ftp/public/2015SummerCourse/GUI.zip|Peter's GUI executable (3.5Mb)]]
* [[http://lfa.if.usp.br/ftp/public/2015SummerCourse/Lognormal_fitting_2.xls|Excel sheet for fitting lognormal distribution]]
* [[http://lfa.if.usp.br/ftp/public/2015SummerCourse/Radiative_transfer_SBDART.tgz|Peter's radiative transfer with SBDART (111Mb)]]
* [[http://lfa.if.usp.br/ftp/public/2015SummerCourse/GUI.zip|Peter's GUI executable (3.5Mb)]]
* [[http://lfa.if.usp.br/ftp/public/2015SummerCourse/Lognormal_fitting_2.xls|Excel sheet for fitting lognormal distribution]]
Changed lines 126-130 from:
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/GoAmazon_sample_ATTO.tgz|Sample GoAmazon data, site T0a - ATTO (24Mb)]]
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/GoAmazon_sample_TT34.tgz|Sample GoAmazon data, site T0z - ZF2 TT34 (30Mb)]]
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/GoAmazon_sample_Tiwa.tgz|Sample GoAmazon data, site T2 - Tiwa (24Mb)]]
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/GoAmazon_sample_Manacapuru.tgz|Sample GoAmazon data, site T3 - Manacapuru (21Mb)]]
* [[
* [[
* [[
to:
* [[http://lfa.if.usp.br/ftp/public/2015SummerCourse/GoAmazon_sample_ATTO.tgz|Sample GoAmazon data, site T0a - ATTO (24Mb)]]
* [[http://lfa.if.usp.br/ftp/public/2015SummerCourse/GoAmazon_sample_TT34.tgz|Sample GoAmazon data, site T0z - ZF2 TT34 (30Mb)]]
* [[http://lfa.if.usp.br/ftp/public/2015SummerCourse/GoAmazon_sample_Tiwa.tgz|Sample GoAmazon data, site T2 - Tiwa (24Mb)]]
* [[http://lfa.if.usp.br/ftp/public/2015SummerCourse/GoAmazon_sample_Manacapuru.tgz|Sample GoAmazon data, site T3 - Manacapuru (21Mb)]]
* [[http://lfa.if.usp.br/ftp/public/2015SummerCourse/GoAmazon_sample_TT34.tgz|Sample GoAmazon data, site T0z - ZF2 TT34 (30Mb)]]
* [[http://lfa.if.usp.br/ftp/public/2015SummerCourse/GoAmazon_sample_Tiwa.tgz|Sample GoAmazon data, site T2 - Tiwa (24Mb)]]
* [[http://lfa.if.usp.br/ftp/public/2015SummerCourse/GoAmazon_sample_Manacapuru.tgz|Sample GoAmazon data, site T3 - Manacapuru (21Mb)]]
Changed lines 133-134 from:
* [[ftp://lfa.if.usp.br/2015SummerCourse/SaoPaulo_workshop_STINT_2015_Exercises_I.pdf|Clouds Exercises I]]
* [[ftp://lfa.if.usp.br/2015SummerCourse/standard_atmos_2013_12_20_10_17_12_UTC.pdf|Standard Atmosphere]]
* [[
to:
* [[http://lfa.if.usp.br/ftp/public/2015SummerCourse/SaoPaulo_workshop_STINT_2015_Exercises_I.pdf|Clouds Exercises I]]
* [[http://lfa.if.usp.br/ftp/public/2015SummerCourse/standard_atmos_2013_12_20_10_17_12_UTC.pdf|Standard Atmosphere]]
* [[http://lfa.if.usp.br/ftp/public/2015SummerCourse/standard_atmos_2013_12_20_10_17_12_UTC.pdf|Standard Atmosphere]]
Changed lines 52-60 from:
*[[ftp://lfa.if.usp.br/2015SummerCourse/L0_Artaxo_Aerosols_Climate.pdf|L0: Aerosols and Climate - Course intro (Artaxo)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L1_L2_Tunved_aerosol_physics.pdf|L1 and L2: Aerosol microphysics and dynamics (P. Tunved)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L3_Phyllips_cloud_physics1.pdf|L3: Cloud microphysics and properties (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L4_Phyllips_cloud_physics2.pdf|L4: Cloud microphysics and properties (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L5_Phyllips_cloud_physics3.pdf|L5: Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L6_Phyllips_cloud_physics4.pdf|L6: Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L7_Phyllips_cloud_physics5.pdf|L7 Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L8_Phyllips_cloud_physics6.pdf|L8 Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L9_L10_Krejci_aerosol_clouds.pdf|L9 and L10: Aerosol-cloud interactions (R. Krejci)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L1_L2_Tunved_aerosol_physics.pdf|L1 and L2: Aerosol microphysics and dynamics (P. Tunved)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L3_Phyllips_cloud_physics1.pdf|L3: Cloud microphysics and properties (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L4_Phyllips_cloud_physics2.pdf|L4: Cloud microphysics and properties (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L5_Phyllips_cloud_physics3.pdf|L5: Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L6_Phyllips_cloud_physics4.pdf|L6: Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L7_Phyllips_cloud_physics5.pdf|L7 Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L8_Phyllips_cloud_physics6.pdf|L8 Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L9_L10_Krejci_aerosol_clouds.pdf|L9 and L10: Aerosol-cloud interactions (R. Krejci)]]
to:
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L0_Artaxo_Aerosols_Climate.pdf|L0: Aerosols and Climate - Course intro (Artaxo)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L1_L2_Tunved_aerosol_physics.pdf|L1 and L2: Aerosol microphysics and dynamics (P. Tunved)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L3_Phyllips_cloud_physics1.pdf|L3: Cloud microphysics and properties (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L4_Phyllips_cloud_physics2.pdf|L4: Cloud microphysics and properties (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L5_Phyllips_cloud_physics3.pdf|L5: Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L6_Phyllips_cloud_physics4.pdf|L6: Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L7_Phyllips_cloud_physics5.pdf|L7 Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L8_Phyllips_cloud_physics6.pdf|L8 Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L9_L10_Krejci_aerosol_clouds.pdf|L9 and L10: Aerosol-cloud interactions (R. Krejci)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L1_L2_Tunved_aerosol_physics.pdf|L1 and L2: Aerosol microphysics and dynamics (P. Tunved)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L3_Phyllips_cloud_physics1.pdf|L3: Cloud microphysics and properties (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L4_Phyllips_cloud_physics2.pdf|L4: Cloud microphysics and properties (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L5_Phyllips_cloud_physics3.pdf|L5: Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L6_Phyllips_cloud_physics4.pdf|L6: Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L7_Phyllips_cloud_physics5.pdf|L7 Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L8_Phyllips_cloud_physics6.pdf|L8 Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L9_L10_Krejci_aerosol_clouds.pdf|L9 and L10: Aerosol-cloud interactions (R. Krejci)]]
Changed lines 62-64 from:
*[[ftp://lfa.if.usp.br/2015SummerCourse/L12_Rizzo_Amazonian_aerosols.pdf|L12: Atmospheric aerosols in Amazonia (Rizzo)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L13_Barbosa_Aerosols_clouds_amazon.pdf|L13: Aerosols and clouds over Amazonia (Barbosa)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L14_Artaxo_AmazonianAerosols_Climate.pdf|L14: Role of Amazonia in Earth climate (Artaxo)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L13_Barbosa_Aerosols_clouds_amazon.pdf|L13: Aerosols and clouds over Amazonia (Barbosa)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L14_Artaxo_AmazonianAerosols_Climate.pdf|L14: Role of Amazonia in Earth climate (Artaxo)]]
to:
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L12_Rizzo_Amazonian_aerosols.pdf|L12: Atmospheric aerosols in Amazonia (Rizzo)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L13_Barbosa_Aerosols_clouds_amazon.pdf|L13: Aerosols and clouds over Amazonia (Barbosa)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L14_Artaxo_AmazonianAerosols_Climate.pdf|L14: Role of Amazonia in Earth climate (Artaxo)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L13_Barbosa_Aerosols_clouds_amazon.pdf|L13: Aerosols and clouds over Amazonia (Barbosa)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/pdf/L14_Artaxo_AmazonianAerosols_Climate.pdf|L14: Role of Amazonia in Earth climate (Artaxo)]]
Changed lines 53-60 from:
*[[Attach:L1_L2_Tunved_aerosol_physics.pdf|L1 and L2: Aerosol microphysics and dynamics (P. Tunved)]]
*[[Attach:L3_Phyllips_cloud_physics.pdf|L3: Cloud microphysics and properties (V. Phillips)]]
*[[Attach:L4_Phyllips_cloud_physics.pdf|L4: Cloud microphysics and properties (V. Phillips)]]
*[[Attach:L5_Phyllips_cloud_physics.pdf|L5: Introduction to cloud modelling (V. Phillips)]]
*[[Attach:L6_Phyllips_cloud_physics.pdf|L6: Introduction to cloud modelling (V. Phillips)]]
*[[Attach:L7_Phyllips_cloud_physics.pdf|L7 Introduction to cloud modelling (V. Phillips)]]
*[[Attach:L8_Phyllips_cloud_physics.pdf|L8 Introduction to cloud modelling (V. Phillips)]]
*[[Attach:L9_L10_Krejci_aerosol_clouds.pdf|L9 and L10: Aerosol-cloud interactions (R. Krejci)]]
*[[
*[[
*[[
*[[
*[[
*[[
*[[
to:
*[[ftp://lfa.if.usp.br/2015SummerCourse/L1_L2_Tunved_aerosol_physics.pdf|L1 and L2: Aerosol microphysics and dynamics (P. Tunved)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L3_Phyllips_cloud_physics1.pdf|L3: Cloud microphysics and properties (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L4_Phyllips_cloud_physics2.pdf|L4: Cloud microphysics and properties (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L5_Phyllips_cloud_physics3.pdf|L5: Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L6_Phyllips_cloud_physics4.pdf|L6: Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L7_Phyllips_cloud_physics5.pdf|L7 Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L8_Phyllips_cloud_physics6.pdf|L8 Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L9_L10_Krejci_aerosol_clouds.pdf|L9 and L10: Aerosol-cloud interactions (R. Krejci)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L3_Phyllips_cloud_physics1.pdf|L3: Cloud microphysics and properties (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L4_Phyllips_cloud_physics2.pdf|L4: Cloud microphysics and properties (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L5_Phyllips_cloud_physics3.pdf|L5: Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L6_Phyllips_cloud_physics4.pdf|L6: Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L7_Phyllips_cloud_physics5.pdf|L7 Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L8_Phyllips_cloud_physics6.pdf|L8 Introduction to cloud modelling (V. Phillips)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L9_L10_Krejci_aerosol_clouds.pdf|L9 and L10: Aerosol-cloud interactions (R. Krejci)]]
Changed lines 62-63 from:
*[[Attach:L12_Rizzo_Amazonian_aerosols.pdf|L12: Atmospheric aerosols in Amazonia (Rizzo)]]
*[[Attach:L13_Barbosa_Aerosols_clouds_amazon.pdf|L13: Aerosols and clouds over Amazonia (Barbosa)]]
*[[
to:
*[[ftp://lfa.if.usp.br/2015SummerCourse/L12_Rizzo_Amazonian_aerosols.pdf|L12: Atmospheric aerosols in Amazonia (Rizzo)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L13_Barbosa_Aerosols_clouds_amazon.pdf|L13: Aerosols and clouds over Amazonia (Barbosa)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L13_Barbosa_Aerosols_clouds_amazon.pdf|L13: Aerosols and clouds over Amazonia (Barbosa)]]
Changed lines 52-53 from:
*L1: Aerosol microphysics and dynamics (P. Tunved)
*L2: Aerosol microphysics and dynamics(P. Tunved)
*L2: Aerosol microphysics and dynamics
to:
*[[ftp://lfa.if.usp.br/2015SummerCourse/L0_Artaxo_Aerosols_Climate.pdf|L0: Aerosols and Climate - Course intro (Artaxo)]]
*[[Attach:L1_L2_Tunved_aerosol_physics.pdf|L1 and L2: Aerosol microphysics and dynamics (P. Tunved)]]
*[[Attach:L1_L2_Tunved_aerosol_physics.pdf|L1 and L2: Aerosol microphysics and dynamics (P. Tunved)]]
Changed lines 60-62 from:
*L9: Aerosol-cloud interactions (R. Krejci)
L10: Aerosol-cloud interactions (R. Krejci)
*L11: Aerosols and climate (Hansson, Artaxo)
*L11: Aerosols and climate (Hansson, Artaxo
to:
*[[Attach:L9_L10_Krejci_aerosol_clouds.pdf|L9 and L10: Aerosol-cloud interactions (R. Krejci)]]
*L11: Aerosols and climate (Hansson)
*L11: Aerosols and climate (Hansson)
Changed lines 63-64 from:
*L13: Aerosols and clouds over Amazonia (Barbosa)
L14: Role of Amazonia in Earth climate (Artaxo, Hansson)
to:
*[[Attach:L13_Barbosa_Aerosols_clouds_amazon.pdf|L13: Aerosols and clouds over Amazonia (Barbosa)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L14_Artaxo_AmazonianAerosols_Climate.pdf|L14: Role of Amazonia in Earth climate (Artaxo)]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/L14_Artaxo_AmazonianAerosols_Climate.pdf|L14: Role of Amazonia in Earth climate (Artaxo)]]
Changed lines 54-59 from:
*L3: Cloud microphysics and properties (V. Phillips)
Introduction to cloud modelling (V. Phillips)
*L8 Introduction to cloud modelling (V.Phillips)
*L8 Introduction to cloud modelling (V.
to:
*[[Attach:L3_Phyllips_cloud_physics.pdf|L3: Cloud microphysics and properties (V. Phillips)]]
*[[Attach:L4_Phyllips_cloud_physics.pdf|L4: Cloud microphysics and properties (V. Phillips)]]
*[[Attach:L5_Phyllips_cloud_physics.pdf|L5: Introduction to cloud modelling (V. Phillips)]]
*[[Attach:L6_Phyllips_cloud_physics.pdf|L6: Introduction to cloud modelling (V. Phillips)]]
*[[Attach:L7_Phyllips_cloud_physics.pdf|L7 Introduction to cloud modelling (V. Phillips)]]
*[[Attach:L8_Phyllips_cloud_physics.pdf|L8 Introduction to cloud modelling (V. Phillips)]]
*[[Attach:L4_Phyllips_cloud_physics.pdf|L4: Cloud microphysics and properties (V. Phillips)]]
*[[Attach:L5_Phyllips_cloud_physics.pdf|L5: Introduction to cloud modelling (V. Phillips)]]
*[[Attach:L6_Phyllips_cloud_physics.pdf|L6: Introduction to cloud modelling (V. Phillips)]]
*[[Attach:L7_Phyllips_cloud_physics.pdf|L7 Introduction to cloud modelling (V. Phillips)]]
*[[Attach:L8_Phyllips_cloud_physics.pdf|L8 Introduction to cloud modelling (V. Phillips)]]
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*L12: Atmospheric aerosols in Amazonia (Rizzo)
to:
*[[Attach:L12_Rizzo_Amazonian_aerosols.pdf|L12: Atmospheric aerosols in Amazonia (Rizzo)]]
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* [[ftp://lfa.if.usp.br/2015SummerCourse/standard_atmos_2013_12_20_10_17_12_UTC.pdf|Standard Atmosphere]]
to:
* [[ftp://lfa.if.usp.br/2015SummerCourse/standard_atmos_2013_12_20_10_17_12_UTC.pdf|Standard Atmosphere]]
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* [[[ftp://lfa.if.usp.br/2015SummerCourse/standard_atmos_2013_12_20_10_17_12_UTC.pdf|Standard Atmosphere]]
to:
* [[ftp://lfa.if.usp.br/2015SummerCourse/standard_atmos_2013_12_20_10_17_12_UTC.pdf|Standard Atmosphere]]
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* [[[ftp://lfa.if.usp.br/2015SummerCourse/standard_atmos_2013_12_20_10_17_12_UTC.pdf|Standard Atmosphere]]
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*[[ftp://lfa.if.usp.br/2015SummerCourse/SaoPaulo_workshop_STINT_2015_PtI.pdf|L5: Introduction to cloud modelling (V. Phillips)]]
** [[ftp://lfa.if.usp.br/2015SummerCourse/SaoPaulo_workshop_STINT_2015_Exercises_I.pdf|Exercises I]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/SaoPaulo_workshop_STINT_2015_PtI.pdf|L6: Introduction to cloud modelling (V. Phillips)]]
** [[ftp://lfa.if.usp.br/2015SummerCourse/SaoPaulo_workshop_STINT_2015_Exercises_I.pdf|Exercises I]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/SaoPaulo_workshop_STINT_2015_PtI.pdf|L6: Introduction to cloud modelling (V. Phillips)]]
to:
*L5: Introduction to cloud modelling (V. Phillips)
*L6: Introduction to cloud modelling (V. Phillips)
*L6: Introduction to cloud modelling (V. Phillips)
Added lines 130-132:
!!! Cloud Exercises
* [[ftp://lfa.if.usp.br/2015SummerCourse/SaoPaulo_workshop_STINT_2015_Exercises_I.pdf|Clouds Exercises I]]
* [[ftp://lfa.if.usp.br/2015SummerCourse/SaoPaulo_workshop_STINT_2015_Exercises_I.pdf|Clouds Exercises I]]
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*L5: Introduction to cloud modelling (V. Phillips)
*L6: Introduction to cloud modelling (V.
*L6: Introduction to cloud modelling (V
to:
*[[ftp://lfa.if.usp.br/2015SummerCourse/SaoPaulo_workshop_STINT_2015_PtI.pdf|L5: Introduction to cloud modelling (V. Phillips)]]
** [[ftp://lfa.if.usp.br/2015SummerCourse/SaoPaulo_workshop_STINT_2015_Exercises_I.pdf|Exercises I]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/SaoPaulo_workshop_STINT_2015_PtI.pdf|L6: Introduction to cloud modelling (V. Phillips)]]
** [[ftp://lfa.if.usp.br/2015SummerCourse/SaoPaulo_workshop_STINT_2015_Exercises_I.pdf|Exercises I]]
*[[ftp://lfa.if.usp.br/2015SummerCourse/SaoPaulo_workshop_STINT_2015_PtI.pdf|L6: Introduction to cloud modelling (V. Phillips)]]
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* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/Lognormal_fitting_2.xls|Excel sheet for fitting lognormal distribution]]
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!!! Matlab runtime libraries (for those who don't have full matlab installed)
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to:
!!! Matlab aerosol routines
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/AEROSOL_DYNAMICS.tgz|Peter's aerosol dynamics (8.5Mb)]]
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/AEROSOL_DYNAMICS.tgz|Peter's aerosol dynamics (8.5Mb)]]
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* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/GUI.zip|Peter's GUI executable (3.5Mb)]]
!!! Sample datasets
!!! Sample datasets
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t
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* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/Radiative_transfer_SBDART.tgz|Peter's radiative transfer with SBDART (111Mb)]]
to:
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/Radiative_transfer_SBDART.tgz|Peter's radiative transfer with SBDART (111Mb)]]
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/GoAmazon_sample_ATTO.tgz|Sample GoAmazon data, site T0a - ATTO (24Mb)]]
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/GoAmazon_sample_TT34.tgz|Sample GoAmazon data, site T0z - ZF2 TT34 (30Mb)]]
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/GoAmazon_sample_Tiwa.tgz|Sample GoAmazon data, site T2 - Tiwa (24Mb)]]
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/GoAmazon_sample_Manacapuru.tgz|Sample GoAmazon data, site T3 - Manacapuru (21Mb)]]
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/GoAmazon_sample_ATTO.tgz|Sample GoAmazon data, site T0a - ATTO (24Mb)]]
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/GoAmazon_sample_TT34.tgz|Sample GoAmazon data, site T0z - ZF2 TT34 (30Mb)]]
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/GoAmazon_sample_Tiwa.tgz|Sample GoAmazon data, site T2 - Tiwa (24Mb)]]
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/GoAmazon_sample_Manacapuru.tgz|Sample GoAmazon data, site T3 - Manacapuru (21Mb)]]
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* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/AEROSOL_DYNAMICS.tgz|Peter's aerosol dynamics GUI for Matlab (8.5Mb)]]
to:
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/Radiative_transfer_SBDART.tgz|Peter's radiative transfer with SBDART (111Mb)]]
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* Dr. Henrique Barbossa
to:
* Dr. Henrique Barbosa
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* [[ftp://ftp.lfa.if.usp.br
to:
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/AEROSOL_DYNAMICS.tgz|Peter's aerosol dynamics GUI for Matlab (8.5Mb)]]
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/AEROSOL_DYNAMICS.tgz|Peter's aerosol dynamics GUI for Matlab (8.5Mb)]]
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/AEROSOL_DYNAMICS.tgz|Peter's aerosol dynamics GUI for Matlab (8.5Mb)]]
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to:
The course files are located on our FTP server: [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/]]
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/MCRInstaller.exe|Matlab 2014b runtime engine for x64 (701Mb)]]
* [[ftp://ftp.lfa.if.usp.br
* [[ftp://ftp.lfa.if.usp.br/2015SummerCourse/MCRInstaller.exe|Matlab 2014b runtime engine for x64 (701Mb)]]
* [[ftp://ftp.lfa.if.usp.br
Added lines 105-107:
!! Download Files
[[ftp://ftp.lfa.if.usp.br/2015SummerCourse/MCRInstaller.exe|Matlab 2014b runtime engine for x64]]
[[ftp://ftp.lfa.if.usp.br/2015SummerCourse/MCRInstaller.exe|Matlab 2014b runtime engine for x64]]
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to:
* Maps and instructions to get to Henrique's and Paulo's offices: [[http://www.fap.if.usp.br/~hbarbosa/uploads/Site/Personal/Map_LFA_offices.pdf|Download Map]]
* On this map of the campus, the physics institute is #27: [[http://www.usp.br/mapas/mapas/pdf/cidadeuniversitaria.pdf]]
* On this map of the campus, the physics institute is #27: [[http://www.usp.br/mapas/mapas/pdf/cidadeuniversitaria.pdf]]
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The course will take place on room 105, Ed. Basílio Jafet. This is the same building where prof. Paulo and Henrique have their office. To get there, see these instructions:
Changed lines 12-21 from:
Department of Physics, University of Sao Paulo, Brazil
to:
Department of Physics, University of Sao Paulo, Brazil\\
Sala 105, Ed. Basílio Jafet, \\
Rua do Matão, Travessa R, 187\\
05508-090 São Paulo – SP
On this map of the campus, the physics institute is #27: [[http://www.usp.br/mapas/mapas/pdf/cidadeuniversitaria.pdf]]
Maps and instructions to get to Henrique's and Paulo's offices: [[http://www.fap.if.usp.br/~hbarbosa/uploads/Site/Personal/Map_LFA_offices.pdf|Download Map]]
Hotel tips: [[http://www.fap.if.usp.br/~hbarbosa/uploads/Site/Personal/HotelTips.pdf|Download Hotel Tips PDF]]
Sala 105, Ed. Basílio Jafet, \\
Rua do Matão, Travessa R, 187\\
05508-090 São Paulo – SP
On this map of the campus, the physics institute is #27: [[http://www.usp.br/mapas/mapas/pdf/cidadeuniversitaria.pdf]]
Maps and instructions to get to Henrique's and Paulo's offices: [[http://www.fap.if.usp.br/~hbarbosa/uploads/Site/Personal/Map_LFA_offices.pdf|Download Map]]
Hotel tips: [[http://www.fap.if.usp.br/~hbarbosa/uploads/Site/Personal/HotelTips.pdf|Download Hotel Tips PDF]]
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[+Universidade de São Paulo & Universitet Stockholms+]
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to:
[++'''Course on atmospheric aerosols and clouds with introduction to process oriented modeling'''++]
[+''16 – 27 March 2015''+]
[+''16 – 27 March 2015''+]
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(:Title Course on atmospheric aerosols and clouds with introduction to process oriented modeling :)
16 – 27 March 2015
16 – 27 March 2015
to:
(:Title 2015 Summer Course :)
!Course on atmospheric aerosols and clouds with introduction to process oriented modeling
!16 – 27 March 2015
!Course on atmospheric aerosols and clouds with introduction to process oriented modeling
!16 – 27 March 2015
Changed lines 84-88 from:
# Evolution of aerosol size distribution of Manaus plume and assessing the importance or coagulation, condensation, dispersion and removal processes. For this part data from T2 and T3 sites provide the basis.
# Why is the aerosol size distribution in remote areas so stable? Here we thought of students to use data from T0 (ATTO) and test different processes forming aerosol size distribution over the rainforest (coagulation, condensation, removal, changing emission gas phase precursors).
# How do aerosols change clouds? here we propose to use data from T0 (clean) and T2 or T3 (polluted) and let students explore how different conditions and aerosol loading change the aerosol activation and resulting cloud microphysical properties. Besides different aerosol they can also test what more/less water vapor will do, etc.
# Why we do not see new particle formation over rainforest? The nucleation routines from Peter's model will be used together with real conditions (T0 site for example) to test by varying thermodynamic conditions (p, T, RH, solar insulation) and available gaseous precursors if a treshold, where model allows occurence of nucleation as we know it from other parts of the world.
# What is the direct radiative forcing of clean and polluted aerosol over Amazonas? Using aerosol optical data from T0, ZF2, T2 and T3 use the aerosol optical properties model routines to assess the direct radiative
# Why is the aerosol size distribution in remote areas so stable? Here we thought of students to use data from T0 (ATTO) and test different processes forming aerosol size distribution over the rainforest (coagulation, condensation, removal, changing emission gas phase precursors).
# How do aerosols change clouds? here we propose to use data from T0 (clean) and T2 or T3 (polluted) and let students explore how different conditions and aerosol loading change the aerosol activation and resulting cloud microphysical properties. Besides different aerosol they can also test what more/less water vapor will do, etc.
# Why we do not see new particle formation over rainforest? The nucleation routines from Peter's model will be used together with real conditions (T0 site for example) to test by varying thermodynamic conditions (p, T, RH, solar insulation) and available gaseous precursors if a treshold, where model allows occurence of nucleation as we know it from other parts of the world.
# What is the direct radiative forcing of clean and polluted aerosol over Amazonas? Using aerosol optical data from T0, ZF2, T2 and T3 use the aerosol optical properties model routines to assess the direct radiative
to:
# '''Evolution of aerosol size distribution of Manaus plume''' and assessing the importance or coagulation, condensation, dispersion and removal processes. For this part data from T2 and T3 sites provide the basis.
# '''Why is the aerosol size distribution in remote areas so stable?''' Here we thought of students to use data from T0 (ATTO) and test different processes forming aerosol size distribution over the rainforest (coagulation, condensation, removal, changing emission gas phase precursors).
# '''How do aerosols change clouds?''' here we propose to use data from T0 (clean) and T2 or T3 (polluted) and let students explore how different conditions and aerosol loading change the aerosol activation and resulting cloud microphysical properties. Besides different aerosol they can also test what more/less water vapor will do, etc.
# '''Why we do not see new particle formation over rainforest?''' The nucleation routines from Peter's model will be used together with real conditions (T0 site for example) to test by varying thermodynamic conditions (p, T, RH, solar insulation) and available gaseous precursors if a treshold, where model allows occurence of nucleation as we know it from other parts of the world.
# '''What is the direct radiative forcing of clean and polluted aerosol over Amazonas?''' Using aerosol optical data from T0, ZF2, T2 and T3 use the aerosol optical properties model routines to assess the direct radiative
# '''Why is the aerosol size distribution in remote areas so stable?''' Here we thought of students to use data from T0 (ATTO) and test different processes forming aerosol size distribution over the rainforest (coagulation, condensation, removal, changing emission gas phase precursors).
# '''How do aerosols change clouds?''' here we propose to use data from T0 (clean) and T2 or T3 (polluted) and let students explore how different conditions and aerosol loading change the aerosol activation and resulting cloud microphysical properties. Besides different aerosol they can also test what more/less water vapor will do, etc.
# '''Why we do not see new particle formation over rainforest?''' The nucleation routines from Peter's model will be used together with real conditions (T0 site for example) to test by varying thermodynamic conditions (p, T, RH, solar insulation) and available gaseous precursors if a treshold, where model allows occurence of nucleation as we know it from other parts of the world.
# '''What is the direct radiative forcing of clean and polluted aerosol over Amazonas?''' Using aerosol optical data from T0, ZF2, T2 and T3 use the aerosol optical properties model routines to assess the direct radiative
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||! ||!Mon ||!Tue ||!Wed ||!Thu ||!Fri ||
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||! ||!Mon ||!Tue ||!Wed ||!Thu ||!Fri ||
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||!WEEK 1 ||16/3 ||17/3 ||18/3 ||19/3 ||20/3 ||
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||!WEEK 1 ||!16/3 ||!17/3 ||!18/3 ||!19/3 ||!20/3 ||
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||! ||!Mon ||!Tue ||!Wed ||!Thu ||!Fri ||
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||WEEK 2 ||23/3 ||24/3 ||25/3 ||26/3 ||27/3 ||
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||!WEEK 2 ||!23/3 ||!24/3 ||!25/3 ||!26/3 ||!27/3 ||
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||!WEEK 1 ||16/3 ||17/3 ||18/3 ||19/3 ||20/3 ||
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||WEEK 1 ||16/3 ||17/3 ||18/3 ||19/3 ||20/3 ||
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|| 09:00-10:15 || ||L1 ||L3 ||L5 ||L7 ||
|| 10:45 – 12:00 ||Arrival ||L2 ||L4 ||L6 ||L8 ||
||
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||09:00-10:15 || ||L1 ||L3 ||L5 ||L7 ||
||10:45 – 12:00 ||Arrival ||L2 ||L4 ||L6 ||L8 ||
||10:45 – 12:00 ||Arrival ||L2 ||L4 ||L6 ||L8 ||
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|| 14:00 – 15:15 ||Wellcome ||M1 ||M3 ||M5 ||M7 ||
|| 15:45 – 17:00 ||L11 ||M2 ||M4 ||M6 ||M8 ||
||
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||14:00 – 15:15 ||Wellcome ||M1 ||M3 ||M5 ||M7 ||
||15:45 – 17:00 ||L11 ||M2 ||M4 ||M6 ||M8 ||
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||15:45 – 17:00 ||L11 ||M2 ||M4 ||M6 ||M8 ||
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WEEK 1 16/3 17/3 18/3 19/3 20/3
Mon Tue Wed Thu Fri
09:00-10:15 L1 L3 L5 L7
10:45 – 12:00 Arrival L2 L4 L6 L8
Lunch Lunch Lunch Lunch Lunch
14:00 – 15:15 Wellcome M1 M3 M5 M7
15:45 – 17:00 L11 M2 M4 M6 M8
WEEK 2 23/3 24/3 25/3 26/3 27/3
Mon Tue Wed Thu Fri
09:00 – 10:15 L9 L12 L14.1 M15 M19
10:45 – 12:00 L10 L13 L14.2 M16 M20
Lunch Lunch Lunch Lunch Lunch
14:00 – 15:15 M9 M11 M13 M17 M21
15:45 – 17:00 M10 M12 M14 M28 M22
09:00-10:15 L1 L3 L5 L7
10:45 – 12:00 Arrival L2 L4 L6 L8
Lunch Lunch Lunch Lunch Lunch
14:00 – 15:15 Wellcome M1 M3 M5 M7
15:45 – 17:00 L11 M2 M4 M6 M8
WEEK 2 23/3 24/3 25/3 26/3 27/3
Mon Tue Wed Thu Fri
09:00 – 10:15 L9 L12 L14.1 M15 M19
10:45 – 12:00 L10 L13 L14.2 M16 M20
Lunch Lunch Lunch Lunch Lunch
14:00 – 15:15 M9 M11 M13 M17 M21
15:45 – 17
to:
|| WEEK 1 ||16/3 ||17/3 ||18/3 ||19/3 ||20/3 ||
|| ||Mon ||Tue ||Wed ||Thu ||Fri ||
|| 09:00-10:15 || ||L1 ||L3 ||L5 ||L7 ||
|| 10:45 – 12:00 ||Arrival ||L2 ||L4 ||L6 ||L8 ||
|| ||Lunch ||Lunch ||Lunch ||Lunch ||Lunch ||
|| 14:00 – 15:15 ||Wellcome ||M1 ||M3 ||M5 ||M7 ||
|| 15:45 – 17:00 ||L11 ||M2 ||M4 ||M6 ||M8 ||
||WEEK 2 ||23/3 ||24/3 ||25/3 ||26/3 ||27/3 ||
|| ||Mon ||Tue ||Wed ||Thu ||Fri ||
||09:00 – 10:15 ||L9 ||L12 ||L14.1 ||M15 ||M19 ||
||10:45 – 12:00 ||L10 ||L13 ||L14.2 ||M16 ||M20 ||
|| ||Lunch ||Lunch ||Lunch ||Lunch ||Lunch ||
||14:00 – 15:15 ||M9 ||M11 ||M13 ||M17 ||M21 ||
||15:45 – 17:00 ||M10 ||M12 ||M14 ||M28 ||M22 ||
|| ||Mon ||Tue ||Wed ||Thu ||Fri ||
|| 09:00-10:15 || ||L1 ||L3 ||L5 ||L7 ||
|| 10:45 – 12:00 ||Arrival ||L2 ||L4 ||L6 ||L8 ||
|| ||Lunch ||Lunch ||Lunch ||Lunch ||Lunch ||
|| 14:00 – 15:15 ||Wellcome ||M1 ||M3 ||M5 ||M7 ||
|| 15:45 – 17:00 ||L11 ||M2 ||M4 ||M6 ||M8 ||
||WEEK 2 ||23/3 ||24/3 ||25/3 ||26/3 ||27/3 ||
|| ||Mon ||Tue ||Wed ||Thu ||Fri ||
||09:00 – 10:15 ||L9 ||L12 ||L14.1 ||M15 ||M19 ||
||10:45 – 12:00 ||L10 ||L13 ||L14.2 ||M16 ||M20 ||
|| ||Lunch ||Lunch ||Lunch ||Lunch ||Lunch ||
||14:00 – 15:15 ||M9 ||M11 ||M13 ||M17 ||M21 ||
||15:45 – 17:00 ||M10 ||M12 ||M14 ||M28 ||M22 ||
Changed lines 34-49 from:
Welcome and course intro: P. Artaxo & R. Krejci + course lecturers
L1: Aerosol microphysics and dynamics (P. Tunved)
L2: Aerosol microphysics and dynamics (P. Tunved)
L3: Cloud microphysics and properties (V. Phillips)
L4: Cloud microphysics and properties (V. Phillips)
L5: Introduction to cloud modelling (V. Phillips)
L6: Introduction to cloud modelling (V. Phillips)
L7 Introduction to cloud modelling (V. Phillips)
L8 Introduction to cloud modelling (V. Phillips)
L9: Aerosol-cloud interactions (R. Krejci)
L10: Aerosol-cloud interactions (R. Krejci)
L11: Aerosols and climate (Hansson, Artaxo)
L12: Atmospheric aerosols in Amazonia (Rizzo)
L13: Aerosols and clouds over Amazonia (Barbosa)
L14: Role of Amazonia in Earth climate (Artaxo, Hansson)
L1: Aerosol microphysics and dynamics (P. Tunved)
L2: Aerosol microphysics and dynamics (P. Tunved)
L3: Cloud microphysics and properties (V. Phillips)
L4: Cloud microphysics and properties (V. Phillips)
L5: Introduction to cloud modelling (V. Phillips)
L6: Introduction to cloud modelling (V. Phillips)
L7 Introduction to cloud modelling (V. Phillips)
L8 Introduction to cloud modelling (V. Phillips)
L9: Aerosol-cloud interactions (R. Krejci)
L10: Aerosol-cloud interactions (R. Krejci)
L11: Aerosols and climate (Hansson, Artaxo)
L12: Atmospheric aerosols in Amazonia (Rizzo)
L13: Aerosols and clouds over Amazonia (Barbosa)
L14: Role of Amazonia in Earth climate (Artaxo, Hansson)
to:
*Welcome and course intro: P. Artaxo & R. Krejci + course lecturers
*L1: Aerosol microphysics and dynamics (P. Tunved)
*L2: Aerosol microphysics and dynamics (P. Tunved)
*L3: Cloud microphysics and properties (V. Phillips)
*L4: Cloud microphysics and properties (V. Phillips)
*L5: Introduction to cloud modelling (V. Phillips)
*L6: Introduction to cloud modelling (V. Phillips)
*L7 Introduction to cloud modelling (V. Phillips)
*L8 Introduction to cloud modelling (V. Phillips)
*L9: Aerosol-cloud interactions (R. Krejci)
*L10: Aerosol-cloud interactions (R. Krejci)
*L11: Aerosols and climate (Hansson, Artaxo)
*L12: Atmospheric aerosols in Amazonia (Rizzo)
*L13: Aerosols and clouds over Amazonia (Barbosa)
*L14: Role of Amazonia in Earth climate (Artaxo, Hansson)
*L1: Aerosol microphysics and dynamics (P. Tunved)
*L2: Aerosol microphysics and dynamics (P. Tunved)
*L3: Cloud microphysics and properties (V. Phillips)
*L4: Cloud microphysics and properties (V. Phillips)
*L5: Introduction to cloud modelling (V. Phillips)
*L6: Introduction to cloud modelling (V. Phillips)
*L7 Introduction to cloud modelling (V. Phillips)
*L8 Introduction to cloud modelling (V. Phillips)
*L9: Aerosol-cloud interactions (R. Krejci)
*L10: Aerosol-cloud interactions (R. Krejci)
*L11: Aerosols and climate (Hansson, Artaxo)
*L12: Atmospheric aerosols in Amazonia (Rizzo)
*L13: Aerosols and clouds over Amazonia (Barbosa)
*L14: Role of Amazonia in Earth climate (Artaxo, Hansson)
Changed lines 51-58 from:
M1: Model introduction
M2: Model introduction
M3: Data sets introduction, division into groups
M4: Data sets introduction, division into groups
M6 – M11 group work
M12: Groups work short presentations
M13 – M20 – group work
M21-22: final presentations and course summary
M2: Model introduction
M3: Data sets introduction, division into groups
M4: Data sets introduction, division into groups
M6 – M11 group work
M12: Groups work short presentations
M13 – M20 – group work
M21-22: final presentations and course summary
to:
*M1: Model introduction
*M2: Model introduction
*M3: Data sets introduction, division into groups
*M4: Data sets introduction, division into groups
*M6 – M11 group work
*M12: Groups work short presentations
*M13 – M20 – group work
*M21-22: final presentations and course summary
*M2: Model introduction
*M3: Data sets introduction, division into groups
*M4: Data sets introduction, division into groups
*M6 – M11 group work
*M12: Groups work short presentations
*M13 – M20 – group work
*M21-22: final presentations and course summary
Added lines 1-87:
(:Title Course on atmospheric aerosols and clouds with introduction to process oriented modeling :)
16 – 27 March 2015
!! Venue:
Department of Physics, University of Sao Paulo, Brazil
!! Scope:
The scope of the course is on atmospheric aerosols and clouds with special focus on tropics and Amazonia. Participants on the course will use aerosol analysis and modeling tools based on the CALM aerosol process based model (Tuved et al, Atmos. Chem. Phys., 10, 10161–10185, 2010). The tools will be applied on real observational data from wider Amazon Basin. The main goal is to focus on understanding the major physical, chemical and optical processes, together with transport in the atmosphere, controlling aerosol properties and distribution in the atmosphere.
The course includes:
# Lectures given by lecturers from University of Sao Paulo, Stockholm University and Lund University.
# Introduction to aerosol dynamics and chemistry process based models
# Introduction to cloud model
# Practical part involving data analysis of the observations from Amazonia and use of the aerosol process based modeling tools
!! Lecturers:
* Prof. Paulo Artaxo
* Dr. Henrique Barbossa
* Dr. Luciana Rizzo (Uni. Sao Paulo)
* Vaughan Phillips (Lund),
* Dr. Peter Tunved,
* Prof. HC-Hansson,
* Dr. Radovan Krejci
!! Requirements:
Needed: Access and prior knowledge of Matlab is advantage, but not requirement.
Each participant needs own computer. For those who cannot bring it with them, access to computer will be provided on site.
Data analysis software to process the modelling tools output is free of choice, but should be able to read in ASCII files.
!! Work plan:
!!! Lectures
Welcome and course intro: P. Artaxo & R. Krejci + course lecturers
L1: Aerosol microphysics and dynamics (P. Tunved)
L2: Aerosol microphysics and dynamics (P. Tunved)
L3: Cloud microphysics and properties (V. Phillips)
L4: Cloud microphysics and properties (V. Phillips)
L5: Introduction to cloud modelling (V. Phillips)
L6: Introduction to cloud modelling (V. Phillips)
L7 Introduction to cloud modelling (V. Phillips)
L8 Introduction to cloud modelling (V. Phillips)
L9: Aerosol-cloud interactions (R. Krejci)
L10: Aerosol-cloud interactions (R. Krejci)
L11: Aerosols and climate (Hansson, Artaxo)
L12: Atmospheric aerosols in Amazonia (Rizzo)
L13: Aerosols and clouds over Amazonia (Barbosa)
L14: Role of Amazonia in Earth climate (Artaxo, Hansson)
!!! Practical exercises
M1: Model introduction
M2: Model introduction
M3: Data sets introduction, division into groups
M4: Data sets introduction, division into groups
M6 – M11 group work
M12: Groups work short presentations
M13 – M20 – group work
M21-22: final presentations and course summary
WEEK 1 16/3 17/3 18/3 19/3 20/3
Mon Tue Wed Thu Fri
09:00-10:15 L1 L3 L5 L7
10:45 – 12:00 Arrival L2 L4 L6 L8
Lunch Lunch Lunch Lunch Lunch
14:00 – 15:15 Wellcome M1 M3 M5 M7
15:45 – 17:00 L11 M2 M4 M6 M8
WEEK 2 23/3 24/3 25/3 26/3 27/3
Mon Tue Wed Thu Fri
09:00 – 10:15 L9 L12 L14.1 M15 M19
10:45 – 12:00 L10 L13 L14.2 M16 M20
Lunch Lunch Lunch Lunch Lunch
14:00 – 15:15 M9 M11 M13 M17 M21
15:45 – 17:00 M10 M12 M14 M28 M22
!! Themes for Modelling Exercises
Students will be divided into 3 - 4 groups depending on how many are present. The exercises will involve basic data processing and then testing several hypothesis/processes using set of modeling routines that can be combined together as building blocks.
Proposed themes for exercises are based on use of real data obtained during GoAmazon2014/15, but students are encouraged to bring their own datasets (see themes below). Specific scientific questions will be posed and evaluated using the modeling tools, guiding the students in their work. The five themes that will be developed are:
# Evolution of aerosol size distribution of Manaus plume and assessing the importance or coagulation, condensation, dispersion and removal processes. For this part data from T2 and T3 sites provide the basis.
# Why is the aerosol size distribution in remote areas so stable? Here we thought of students to use data from T0 (ATTO) and test different processes forming aerosol size distribution over the rainforest (coagulation, condensation, removal, changing emission gas phase precursors).
# How do aerosols change clouds? here we propose to use data from T0 (clean) and T2 or T3 (polluted) and let students explore how different conditions and aerosol loading change the aerosol activation and resulting cloud microphysical properties. Besides different aerosol they can also test what more/less water vapor will do, etc.
# Why we do not see new particle formation over rainforest? The nucleation routines from Peter's model will be used together with real conditions (T0 site for example) to test by varying thermodynamic conditions (p, T, RH, solar insulation) and available gaseous precursors if a treshold, where model allows occurence of nucleation as we know it from other parts of the world.
# What is the direct radiative forcing of clean and polluted aerosol over Amazonas? Using aerosol optical data from T0, ZF2, T2 and T3 use the aerosol optical properties model routines to assess the direct radiative
16 – 27 March 2015
!! Venue:
Department of Physics, University of Sao Paulo, Brazil
!! Scope:
The scope of the course is on atmospheric aerosols and clouds with special focus on tropics and Amazonia. Participants on the course will use aerosol analysis and modeling tools based on the CALM aerosol process based model (Tuved et al, Atmos. Chem. Phys., 10, 10161–10185, 2010). The tools will be applied on real observational data from wider Amazon Basin. The main goal is to focus on understanding the major physical, chemical and optical processes, together with transport in the atmosphere, controlling aerosol properties and distribution in the atmosphere.
The course includes:
# Lectures given by lecturers from University of Sao Paulo, Stockholm University and Lund University.
# Introduction to aerosol dynamics and chemistry process based models
# Introduction to cloud model
# Practical part involving data analysis of the observations from Amazonia and use of the aerosol process based modeling tools
!! Lecturers:
* Prof. Paulo Artaxo
* Dr. Henrique Barbossa
* Dr. Luciana Rizzo (Uni. Sao Paulo)
* Vaughan Phillips (Lund),
* Dr. Peter Tunved,
* Prof. HC-Hansson,
* Dr. Radovan Krejci
!! Requirements:
Needed: Access and prior knowledge of Matlab is advantage, but not requirement.
Each participant needs own computer. For those who cannot bring it with them, access to computer will be provided on site.
Data analysis software to process the modelling tools output is free of choice, but should be able to read in ASCII files.
!! Work plan:
!!! Lectures
Welcome and course intro: P. Artaxo & R. Krejci + course lecturers
L1: Aerosol microphysics and dynamics (P. Tunved)
L2: Aerosol microphysics and dynamics (P. Tunved)
L3: Cloud microphysics and properties (V. Phillips)
L4: Cloud microphysics and properties (V. Phillips)
L5: Introduction to cloud modelling (V. Phillips)
L6: Introduction to cloud modelling (V. Phillips)
L7 Introduction to cloud modelling (V. Phillips)
L8 Introduction to cloud modelling (V. Phillips)
L9: Aerosol-cloud interactions (R. Krejci)
L10: Aerosol-cloud interactions (R. Krejci)
L11: Aerosols and climate (Hansson, Artaxo)
L12: Atmospheric aerosols in Amazonia (Rizzo)
L13: Aerosols and clouds over Amazonia (Barbosa)
L14: Role of Amazonia in Earth climate (Artaxo, Hansson)
!!! Practical exercises
M1: Model introduction
M2: Model introduction
M3: Data sets introduction, division into groups
M4: Data sets introduction, division into groups
M6 – M11 group work
M12: Groups work short presentations
M13 – M20 – group work
M21-22: final presentations and course summary
WEEK 1 16/3 17/3 18/3 19/3 20/3
Mon Tue Wed Thu Fri
09:00-10:15 L1 L3 L5 L7
10:45 – 12:00 Arrival L2 L4 L6 L8
Lunch Lunch Lunch Lunch Lunch
14:00 – 15:15 Wellcome M1 M3 M5 M7
15:45 – 17:00 L11 M2 M4 M6 M8
WEEK 2 23/3 24/3 25/3 26/3 27/3
Mon Tue Wed Thu Fri
09:00 – 10:15 L9 L12 L14.1 M15 M19
10:45 – 12:00 L10 L13 L14.2 M16 M20
Lunch Lunch Lunch Lunch Lunch
14:00 – 15:15 M9 M11 M13 M17 M21
15:45 – 17:00 M10 M12 M14 M28 M22
!! Themes for Modelling Exercises
Students will be divided into 3 - 4 groups depending on how many are present. The exercises will involve basic data processing and then testing several hypothesis/processes using set of modeling routines that can be combined together as building blocks.
Proposed themes for exercises are based on use of real data obtained during GoAmazon2014/15, but students are encouraged to bring their own datasets (see themes below). Specific scientific questions will be posed and evaluated using the modeling tools, guiding the students in their work. The five themes that will be developed are:
# Evolution of aerosol size distribution of Manaus plume and assessing the importance or coagulation, condensation, dispersion and removal processes. For this part data from T2 and T3 sites provide the basis.
# Why is the aerosol size distribution in remote areas so stable? Here we thought of students to use data from T0 (ATTO) and test different processes forming aerosol size distribution over the rainforest (coagulation, condensation, removal, changing emission gas phase precursors).
# How do aerosols change clouds? here we propose to use data from T0 (clean) and T2 or T3 (polluted) and let students explore how different conditions and aerosol loading change the aerosol activation and resulting cloud microphysical properties. Besides different aerosol they can also test what more/less water vapor will do, etc.
# Why we do not see new particle formation over rainforest? The nucleation routines from Peter's model will be used together with real conditions (T0 site for example) to test by varying thermodynamic conditions (p, T, RH, solar insulation) and available gaseous precursors if a treshold, where model allows occurence of nucleation as we know it from other parts of the world.
# What is the direct radiative forcing of clean and polluted aerosol over Amazonas? Using aerosol optical data from T0, ZF2, T2 and T3 use the aerosol optical properties model routines to assess the direct radiative