city Available_Cities 0 city [:data] all All_Data le=10..mb|[6-9]..mb|10..|[6-9].. all{\ +temp [C :tl],\ +dewp [C :bl],\ +hght [m :data:tr],\ +wind [ :dbarb]} all0 All_Data le=[1-5]..mb|[0-9].mb|[1-5]..|[0-9]. all{\ +temp [C :tl],\ +dewp [C :bl],\ +hght [10m :data:tr],\ +wind [ :dbarb]} all5 All_Data 0 all0 allh All_Data 0 all{\ +temp [C :tl],\ +dewp [C :bl],\ +hght [m :tr],\ +wind [ :dbarb]} alld All_Data 0 all{\ +temp [C :tl],\ +dewd [dC :bl],\ +hght [m :data:tr],\ +wind [ :dbarb]} alld0 All_Data 0 all{\ +temp [C :tl],\ +dewd [dC :bl],\ +hght [10m :data:tr],\ +wind [ :dbarb]} allp All_Data le=sl|sfc|[0-9]..K|[0-9]..k|wind|trop all{\ +temp [C :tl],\ +dewp [C :bl],\ +pres [mb :tr],\ +wind [ :dbarb]} temp Temperature le=~snd +temp [C] dewp Dewpoint le=~snd +dewp [C] dewd Dewpoint_Depression 0 +dewd [dC] wdir Wind_Direction 0 +wdir [deg] wspd Wind_Speed le=~snd +wspd [knt] wbrb Wind_Barb le=~snd +wind [knt :wbarb] wbrbd Wind_Barb 0 +wind [knt :dbarb] uwnd U_wind_component 0 +uwnd [m/s :%.1f] vwnd V_wind_component 0 +vwnd [m/s :%.1f] wind Winds 0 wind<+uwndg,+vwndg> [m/s:wind] ugeos U_geos_component 0 ugeos(hght) [m/s] vgeos V_geos_component 0 vgeos(hght) [m/s] geos Geostrophic_winds 0 geos [m/s:wind] vect Wind_vectors 0 wind [m/s:vect] strm Wind_streamlines 0 wind [m/s:strm] ageos Ageostrophic_winds 0 ageos [m/s:wind] avect Ageos_wind_vectors 0 ageos [m/s:vect] gspd Geos_wind_speed 0 spd(geos) [m/s] uq U_Q_component 0 uq(hght,temp) vq V_Q_component 0 vq(hght,temp) qvect Q_vectors 0 qvect [10^-3:wind] qvconv Q_vector_conv 0 conv(qvect) [10^-7/m] hght Height le=~snd hght [m] thk50 1000-500_mb_Thickness le=snd :p1000-500:thick thk58 850-500_mb_Thickness le=snd :p850-500:thick pres Pressure le=sfc|mwnd|trop|[0-9]..K|[0-9]..k|[0-9]*m|[0-9]*ft pres [mb] spres Station_Pressure le=snd :sfc:pres [mb] wetblb Wet_Bulb_Temperature 0 wetblb [C] mrat Mixing_Ratio le=~snd mrat [g/kg:%2.1f] shum Specific_Humidity 0 shum [g/kg:%2.1f] rhum Relative_Humidity le=~snd rhum [%] pot Potential_Temperature 0 theta [K] epot Equiv_Potential_Temp le=~snd thetae [K] vtemp Virt_Temperature 0 vtemp [K] vpot Virt_Potential_Temp 0 thetav [K] pwat Precip_Water le=snd pwat [in:%.2f] lift Lifted_Index le=snd :sfc\[100\]-500mb:lift [dC:%.1f] show Showalter_Index le=snd show tt Total_Totals_Index le=snd tt ki K_Index le=snd ki hel Helicity le=snd :0-3000m_ag:hel conv Convergence 0 conv(wind) [10^-5_/s] mconv Moisture_Convergence 0 conv(wind,mrat:kg/kg) [10^-8_/s] rvort Rel_Vorticity 0 rvort(wind) [10^-5_/s] avort Abs_Vorticity 0 avort(wind) [10^-5_/s] tadv Temperature_Advection 0 adv(wind,temp:K) [10^-4_K/s] madv Moisture_Advection 0 adv(wind,mrat:kg/kg) [10^-7_/s] vadv Vorticity_Advection 0 adv(wind,avort) [10^-9/s^2] thadv Thickness_Advection 0 adv(wind,th50) [10^-3_/s^2] lthadv Thickness_Advection 0 :700:lapl(thadv) [10^-13_/s^2] nwa300 NWA_300mb_Model 1 all {\ :300:+wind [ :dbarb],\ :300:+temp [C :value:%.0f:xy=+6+0],\ :300:+hght [10m:value:xy=+1+0],\ :trop:+hght [100ft:value:xy=+6-1.2],\ :trop+500m:lapse [-dC/1000ft:%.1f:xy=+12-1.2],\ :mwnd:+hght [100ft:value:%.0f:xy=+1-1.2],\ :mwnd:+wind [ :wbarb:xy=+0-1.2],\ :200:+wind [ :wbarb:xy=+0+1.2],\ :200:+temp [ :value:%0.f:xy=+1+1.2],\ :500:+temp [ :value:%0.f:xy=+6+1.2]} tl1 xxx 0 :trop+500m:lapse[-dk/km:%.1f] tl3 xxx 0 :trop+500m:lapse[-dC/1000ft:%.1f] tl2 xxx 0 :trop-50mb:lapse[-dk/km:%.1f]