Marine Biology :: essays research papers

MARINE BIOLOGY CASE STUDYLAB - PART 2Analysis 1. By running game the programming with a fish.dat file containing the randomness for a 2 x 2 tank size, and changing the starting positions for fish A, B, and C, according to the problem, I was able to evaluate the random sequence of locomote taken by each fish. The fish move in sequence of A, B, and then C. Then they move according to open slots. If a fish is cover on both sides by a nonher fish, it is unable to move and, therefore, stays in that exact position. Analysis 2. The following is a diagram of what we predicted for the outcome of the default option configurationA C E_ B HD F GAnd this is a diagram of where the fish actually moved to when running the program with the current configurationA C ED B HF G _My prediction was inaccurate because I did not move the fish in their correct order. Instead, I proceeded to move the fish in the order of whichever came closer to an open space.Analysis 3. The mebibyte x 1000 matrix was una ble to display any data visible to the user on the console. It exceeds the screens limit of display. I discovered that the largest matrix possible for the console would be a matrix with the size of 23 x 79. Every time that I ran the program with these specifications, I found that the fish always traveled the world-class step down (a total of 10 tries).Analysis 4. When that data file contains two fish located within the same spot, the executable displays at the croak of the console error, attempt to create fish at non-empty (4,4), and then goes on to only display the first fish, A.Analysis 5. The sequence of fish positions does matter when you want certain fish names at certain locations within the