## Visual Basic program "VB BHmerger" - Display - BH #3 = 5 m0

When you observe the above merger displays there two distinct types:
• In the first type you see many black "circles". A typical one is display #1 with phi = 0.
• In the second type you observe many red "circles". A typical one is display #20 with phi = 190.
In each of the displays there is also a green line. This is the path of the small object #3, which enters from the right and which approaches the binary pair of the two Black Holes.
The largest black hole is the black trajectory. This is BH #1. The path starts when phi is 0 left from the center of gravity and goes downwards.
The smallest black hole is the red trajectory. This is BH #2. Thi path starts when phi is 0 right from the center of gravity. The angle phi is angle between the start position of BH #2 and the horizontal point true the center of gravity. In the display the path goes upwards.
• In display #1 the black BH starts at phi = 180. Follows a circle through pi = 270 and meets the green BH at almost phi = 360 or 0 degrees. At that point the speed of BH #3 increases above 300000 km/sec and evaporates. That means the mass of BH #3 disintegrates and merges slowly with BH #1. The mass of BH #3 increases slowly and the two BH's start to spiral towards each other. This stops when all the mass of BH #3 has merged with BH #1 (the black one)
• In display #4 the black BH starts at phi = 210. Follows a circle through pi = 270 and meets the green BH at almost phi = 10 degrees. At that point the speed of BH #3 increases above 300000 km/sec and evaporates, the same as in picture #1. The difference between the two is that the closest distance is smaller and the rotation frequency of the two BH's is larger.
• In display #19 the red BH starts at phi = 180. Follows a circle through pi = 270 and meets the green BH at almost phi = 350 degrees. At that point the speed of BH #3 increases above 300000 km/sec and evaporates. That means the mass of BH #3 disintegrates and merges slowly with the red BH #2. The mass of BH #2 increases slowly and the two BH's start to spiral towards each other. This stops when all the mass of BH #3 has merged with BH #2 (the red one)
• In display 28 with phi 270 the green BH #3 is ejected from the binary system.
• Display 12, 18, 27 and 33 are typical cases where the average distance between the two BH #1 and #2, after the merging with the green BH #3, increases.
 Picture 1 Phi 0 Picture 2 Phi 10 Picture 3 Phi 20 Picture 4 Phi 30 Picture 5 Phi 40 Picture 6 Phi 50 Picture 7 Phi 60 Picture 8 Phi 70 Picture 9 Phi 80 Picture 10 Phi 90 Picture 11 Phi 100 Picture 12 Phi 110 Picture 13 Phi 120 Picture 14 Phi 130 Picture 15 Phi 140 Picture 16 Phi 150 Picture 17 Phi 160 Picture 18 Phi 170 Picture 19 Phi 180 Picture 20 Phi 190 Picture 21 Phi 200 Picture 22 Phi 210 Picture 23 Phi 220 Picture 24 Phi 230 Picture 25 Phi 240 Picture 26 Phi 250 Picture 27 Phi 260 Picture 28 Phi 270 Picture 29 Phi 280 Picture 30 Phi 290 Picture 31 Phi 300 Picture 32 Phi 310 Picture 33 Phi 320 Picture 34 Phi 330 Picture 35 Phi 340 Picture 36 Phi 350

Created 3 March 2016