oO 10 90 ON4AS wee mn N ° Time (Min) 4 oreo - ove ica Moses ~ 3 - 6 - 7 es 14 knots from 070° T. p= the density of the collapsing fluid column relative to that of the ambient fluid. 1,600 feet.) Assumed surface wind: (Determined from rate-of-rise: 90° cloud model for the upwind Stations, all others 60° cloud model; thickness = 8 A a (a) 06/0-085 TIME (nt) pas D./D*085 ps 125 7A (bh 0¢/D +085 ps tts p:¢ 27 ‘ MOL CURVES FOR UMBRELLA 7 | (Determined 0°1800° C:S000° ambient fluid. cloud model; thickness = 1,200 feet.) Assumed surface wind: 16 knots from 053° T. » = the density of the collapsing fluid column relative to that of the Figure 3.133 Radial velocity of hase surge, Shol Umbrella. “10 20 oe r from rate-of-rise: 90° cloud model for the upwind stations, all others 60° (S4ONM) ALIDOTIA THIOVE Figure 3.132 Radial velocity of base surge, Shot Wahoo. mar WHOL CURVES FOR WAHOO 0+°2000° C<1500° -——— fo) SOLID CORE p= 225 _--— tb) 0. /D9067 p= 225 N= ted D./0°08S pe 222 “TF - — 4 ko 90 —te3 ? + ee (SLONM} ALIIONIA TwiCre 236 jf