We can use simulation to examine the fate of populations of living creatures. Consider the Asian stochastic beette. Females of this insect have the following pattern of reproduction: 20% of females die without female offspring, 30% have one female offspring, and 50% have two female offspring. Different females reproduce independently. What will happen to the population of Asian stochastic beetles: will they increase rapidly, barely hold their own, or die out? It is enough to look at the female beetles, as long as there are some males around. Use line 105 of Table A to simulate the offspring of five beetles to the third generation. The assignment of digits for the offspring of one female beetle is One digit simulates the offspring of one randomly chosen female beetle. Assign 0. I to no female offspring 2.3.4 to one female offspring. 5. 6. 7. 8. 9 to two female offspring. Complete the sentences to form the correct statement about the simulation of the beetle population. The first beetle has The second beetle has The third beetle has The fourth beetle has The fifth beetle has The beetle population appears to be LO TO WC The first beetle has The second beetle has The third beetle has 1 descendant. O descendants has 5 The beetle 2 descendants. 5 descendants. population appears 3 descendants 4 descendants. 2 descendants 6 descendants. 5 descendants. O descendants. 6 descendants. 1 descendant 4 descendants. 3 descendants. The first beetle has The second beetle has The third beetle has The fourth beetle has The fifth beetle has The beetle 4 descendants 4 descendants. 2 descendants. be 2 descendants. O descendants. 5 descendants. growing. 6 descendants. 5 descendants 1 descendant, decreasing O descendants. stagnating 2 descendants. 6 descendants. 1 descendant. 3 descendants. O descendants. 5 descendants. 6 descendants 3 descendants. 3 descendants. 1 descendant 4 descendants. We can use simulation to examine the fate of populations of living creatures. Consider the Asian stochastic beette. Females of this insect have the following pattern of reproduction: 20% of females die without female offspring, 30% have one female offspring, and 50% have two female offspring. Different females reproduce independently. What will happen to the population of Asian stochastic beetles: will they increase rapidly, barely hold their own, or die out? It is enough to look at the female beetles, as long as there are some males around. Use line 105 of Table A to simulate the offspring of five beetles to the third generation. The assignment of digits for the offspring of one female beetle is One digit simulates the offspring of one randomly chosen female beetle. Assign 0. I to no female offspring 2.3.4 to one female offspring. 5. 6. 7. 8. 9 to two female offspring. Complete the sentences to form the correct statement about the simulation of the beetle population. The first beetle has The second beetle has The third beetle has The fourth beetle has The fifth beetle has The beetle population appears to be LO TO WC The first beetle has The second beetle has The third beetle has 1 descendant. O descendants has 5 The beetle 2 descendants. 5 descendants. population appears 3 descendants 4 descendants. 2 descendants 6 descendants. 5 descendants. O descendants. 6 descendants. 1 descendant 4 descendants. 3 descendants. The first beetle has The second beetle has The third beetle has The fourth beetle has The fifth beetle has The beetle 4 descendants 4 descendants. 2 descendants. be 2 descendants. O descendants. 5 descendants. growing. 6 descendants. 5 descendants 1 descendant, decreasing O descendants. stagnating 2 descendants. 6 descendants. 1 descendant. 3 descendants. O descendants. 5 descendants. 6 descendants 3 descendants. 3 descendants. 1 descendant 4 descendants