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  • Home
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  • Synoptic lab
    • Syllabus
    • Take-home exams
    • Homework
    • Tropical Cyclones
      • Tropical cyclone climatology and overview
      • Tropical cyclone life cycle and motion
      • Tropical cyclone structure
      • Hurricane forecasting learning material
      • Hurricane forecasting tools
      • Storm surge
      • TUTTs and LA/MS flood event of 2016
    • Ocean applications
      • Waves
      • Tides
      • Miscellaneous ocean products
    • Streamlines
    • Regression, MOS, and NBM
    • Forecasting baroclinic systems and other products
      • Analysis
      • Model guidance
      • Model Output Statistics and National Blend of Models
      • Useful forecast products
  • Synoptic class
    • Syllabus
    • Exam Information
    • Homework
    • Stability
      • The Basics
      • The SkewT and related diagnostic tools
      • POP, air mass thunderstorms, sea breeze thunderstorms
      • Severe Weather
    • Map analysis
      • Upper-level synoptic charts
      • Contouring
      • Surface analysis and fronts
      • Vertical structure
      • Jet Streaks
    • Dynamics
      • Review of dynamics
      • Dynamics applications
      • QG Theory and the Omega equation
      • Cyclogenesis and baroclinic instability
    • Modeling
    • Fog
    • Winter Weather
  • Intro Dynamics
    • Syllabus
    • Homework
    • Sample exam questions
    • Introduction (Chap. 1, HH)
    • Basic equations of meteorology (Chap. 2, HH)
    • Imbedded processes in equations of meteorology (Chap. 3, HH). Exam 2 material
    • Imbedded processes in equations of meteorology (Chap. 3, HH). Exam 3 material
    • Planetary boundary layer
    • Vorticity (Chap.4, HH)
    • Pertubation method and atmospheric waves (Chap 5, HH)
  • Numerical methods
    • Syllabus
    • Homework
    • Number Series
    • Interpolation
    • Basic matrix math
    • Filters And Fourier Analysis
    • Numerical derivatives
    • Numerical integration, random numbers, and Monte Carlo
    • Numerical solutions of differential equations and atmospheric modeling
    • Parameterization, data assimilation, and overview on WRF model
    • Final computer exercises
  • Dashboard
Surface map forecasts
  • Short-range (0.5-2.5 days)
  • Long-range (0-7 days)

Forecast discussions
  • National discussion
  • Mesoscale discussions
  • Precipitation discussion
  • Winter weather discussion
  • New Orleans, MS discussion
  • Corpus Christi, TX discussion

NWS graphical forecasts
  • NWS Watch, Warnings, and Advisories (click on tab)
  • National
  • Southern Mississippi Valley
  • Southern Plains

Precipitation and drought forecasts/information
  • Quantitative Precipitation Forecasts (QPF)
  • Probabilistic QPF
  • Excessive rainfall outlook
  • General precipitation information from AHPS
  • 24-hour observed rain totals
  • Satellite-derived rain rate
  • Precipitable Water
  • Precipitable Water Anomaly
  • "Atmospheric Rivers" product . What is an atmospheric river? What is IVT (see Eq. 1)? Univ Utah lecture notes.
  • Soil Moisture
  • U.S. Drought Monitor
  • Monthly drought outlook

Winter weather guidance
  • NOAA's WPC winter weather website
  • NOAA's WPC winter precipitation website
  • NOAA's snow analyses

Winter ice and snow depth
  • Sea ice coverage
  • Snow coverage and depth
  • Other products, U.S. National Ice Center

River and flood information
  • River Forecast Centers
  • The Water Model. Static images. Raw netcdf files.
  • USGS Flood Page

Fog and visibility
  • Dense Fog Advisories
  • Freezing Fog Advisories
  • GFS visibility product
  • North America visibility. Navy aerosol and visibility website.
​
Fire, smoke, air quality
  • NOAA's Hazard Mapping System
  • NOAA's Air Quality products
  • EPA's AirNow
  • NRL's aerosol page
​
Aviation weather
  • Aviation Weather Center (AWC)
  • Experimental AWC site
  • Surface and cloud graphical forecast from AWC
  • INSITE   (COMET module on INSITE is here)
Copyright © 2020 Weather Classes
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  • Home
  • Contact information
  • Synoptic lab
    • Syllabus
    • Take-home exams
    • Homework
    • Tropical Cyclones
      • Tropical cyclone climatology and overview
      • Tropical cyclone life cycle and motion
      • Tropical cyclone structure
      • Hurricane forecasting learning material
      • Hurricane forecasting tools
      • Storm surge
      • TUTTs and LA/MS flood event of 2016
    • Ocean applications
      • Waves
      • Tides
      • Miscellaneous ocean products
    • Streamlines
    • Regression, MOS, and NBM
    • Forecasting baroclinic systems and other products
      • Analysis
      • Model guidance
      • Model Output Statistics and National Blend of Models
      • Useful forecast products
  • Synoptic class
    • Syllabus
    • Exam Information
    • Homework
    • Stability
      • The Basics
      • The SkewT and related diagnostic tools
      • POP, air mass thunderstorms, sea breeze thunderstorms
      • Severe Weather
    • Map analysis
      • Upper-level synoptic charts
      • Contouring
      • Surface analysis and fronts
      • Vertical structure
      • Jet Streaks
    • Dynamics
      • Review of dynamics
      • Dynamics applications
      • QG Theory and the Omega equation
      • Cyclogenesis and baroclinic instability
    • Modeling
    • Fog
    • Winter Weather
  • Intro Dynamics
    • Syllabus
    • Homework
    • Sample exam questions
    • Introduction (Chap. 1, HH)
    • Basic equations of meteorology (Chap. 2, HH)
    • Imbedded processes in equations of meteorology (Chap. 3, HH). Exam 2 material
    • Imbedded processes in equations of meteorology (Chap. 3, HH). Exam 3 material
    • Planetary boundary layer
    • Vorticity (Chap.4, HH)
    • Pertubation method and atmospheric waves (Chap 5, HH)
  • Numerical methods
    • Syllabus
    • Homework
    • Number Series
    • Interpolation
    • Basic matrix math
    • Filters And Fourier Analysis
    • Numerical derivatives
    • Numerical integration, random numbers, and Monte Carlo
    • Numerical solutions of differential equations and atmospheric modeling
    • Parameterization, data assimilation, and overview on WRF model
    • Final computer exercises
  • Dashboard