p dynes /em* 
g.2u1 x 10!° 
u,606 2" 
2.748" 
1.734 e 
‘zis 
6.607 x 10° 
9.333 x 10° 
uue7 
5.689 x 10° 
Figure (2) 
Figure (3) 
Figure (4) 
Figure (5) 
267 
= 5 = 
TABLE Il. 
T.N.I. density 1.0 
@ degrees p degrees u_cm/sec. v_cm/sec. 
0 90° 0 3.703 x 10° 
45° 30° 95° 6" 2.851 x 10° 3.346 * 
62° 30° 100° 16° 3.789 " 2.037 ale 
ie he 104° 16° 4,362 " 2.503 ® 
82° 24" 107° 18° 4,684 U) 2.173 ( 
93° 36! 111° 54" 5. 057 " 1.675 2 
114° 54° 123° ie 5.528 . 854 =O 
120° 36° 127° 54° 5.605 c med Y 
14y° 48! 148° 4at 5.638 . 2461 (J 
6.028 ~ 0 
Diagram snowing the stream lines for T.N.T. density 1.5 gm/cm? detonating 
in air. Line 0D separates the products of the explosive and the air of 
the explosive and the air of the shock wave with wave front OE. 
T.N.T. density 1.5 gm/em. Explanation in text. 
T.N.T, density 1.0 g/cm. Explanation in text. 
Shock waves in water. Uata supplied by Penney. 
Stream lines for T.N.T. density 1.5 gm/cm? detonating in water. Region 
EOD is the water shock wave. DOA is region containing the products of 
the exploding T.N.T. 
