YFNB 13 How I YAG 40 YAG 39 LST 611 YFNB 13 YFNB 29 How I YAG 39 YAG 40 LST 611 Zuni Tewa Time of Arrival Predicted Observed? Onna oe ort a mo v v ww 126 2,000 800 1,000 500 200 150 t Section 3.2.4 and Tables B.3 and B.5. § No fallout, or no fallout at reference time. { Fallout completed by reference time, t Table 3.1. Diameter, naut mi Base, x 1,000 ft Top, x 1,000 ft 6 35 65 _— 1,000 285 395 285 205 40 50 85 Shot Navajo 350 500 250 180 100 80 695 365 300 _ _ 6 166 <70 40 50 80 Shot Zuni v 1 i 1 90 _ 500 >500 125 q _ ~415 —_ 545 60 50 90 Shot Tewa 255 Pid Shot Flathead 285 1,100 205 _ _ 285 500 > 500 150 1 _ 120 w 0.25 0.23 1.6 2.0 4.4 7.0 Pb dd 1,400 —_ 325 — _ 130 180 180 70 >1,000 500 { Pit? fst | <0.5 <1 1 2 3.5 1 112 2 = 500 > 500 § 100 _ >1,000 500 500 200 300 200 125 120 -— — Time of Cessation ft Predicted Observed t eo <1.6 ~6 9 § 0.20 0.75 2.3 6.0 3.0 4.5 8.0 6.6 0.35 5 Maximum Particle Size (microns) at Time of Arrival Time of Peak Activity t Predicted Observed { Predicted Observed t ~ 0.33 0.38 3.4 12 § TSD, hr re Pit | bite] * The following cloud dimensions were used in the calculations: YFNB 13 How I YAG 39 YAG 40 LST 611 Navajo Station YFNB 13 How I YAG 39 YAG 40 LST 611 * COMPARISON OF PREDICTED AND OBSERVED TIMES OF ARRIVAL AND MAXIMUM PARTICLE-SIZE VARIATION WITH TIME Flathead Shot TABLE 4.3 Pld dd