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