![EmilieCasey3605](/avatars/14201.jpg)
EmilieCasey3605
22.02.2022 •
Biology
You are examining a new kind of cell. This cell is quite thick and has an interesting surface. You only have a small number of these cells, so it would be great if you could keep them alive while you are examining them. What kind of microscope would you use in this situation? Include at least two reasons why you chose your microscope.
Solved
Show answers
More tips
- F Food and Cooking How to Properly Wash a Down Jacket? Tips from Experts...
- C Computers and Internet Thin Client: What It Is and Why You Need It?...
- F Food and Cooking The Most Delicious and Simple Fish in Batter Recipe...
- F Food and Cooking Red Caviar: How to Choose the Best?...
- C Computers and Internet Clearing Cache: How to Speed Up Your Browser...
- S Style and Beauty How are artificial nails removed?...
- S Style and Beauty Secrets of Tying a Pareo: 5 Ways...
- F Food and Cooking Everything You Need to Know About Pasta...
Answers on questions: Biology
- E English Which of the following is a synonym for allowed ? Select all that apply. independent enabled permitted authorized Correct ENABLED PERMITTED AUTHORIZED FROM: Your friendly neighborhood...
- M Mathematics X+8 What is the solution of 5x-1 O? O x5-8 or x 1 X -8 or X 5 -85x 7 0 -8...
- E English Which of these words would describe a chasm? Select all that apply. minimal strict huge painful wide...
Ответ:
electron microscope
Explanation:
electron microscpe is more powerful than usual microscope
Ответ:
1. Which limiting factor(s) in this lab simulation are biotic?
Limiting factor is resource/condition that could limit the growth or the population of an organism in the ecosystem. Some factor could be deleterious(like predator) and reduce the population while other could be advantageous(like food) and increase the population. The biotic factor consist of living things.
The biotic factor in this simulation would be alligator and the mosquito.
2. Which limiting factor(s) in this lab simulation are abiotic?
Abiotic factor consist of nonliving things. The non-living factor in this scenario would be the pollution. Increased pollution could damage all the biotic factor and might limit them. The damage might not be equal as some organism could be more sensitive to the pollution than the other.
3. Which limiting factor impacted the cricket frog population the most? Use evidence to support your answer.
I would say that the predator/alligator is limiting factor that impacted the cricket frog population the most. If you compare the condition of simulation 1 and simulation 2, alligator population is the one that undergo highest change. The population increased by 40,000 in simulation 1 and decreased by 35,000 in simulation 2.
4. Which limiting factor impacted the cricket frog population the least? Use evidence to support your answer.
I think the pollution is the limiting factor impacted the cricket frog population the least. The changes of the pollution number is least when compared to other factor. It doesn't change in simulation 1. The pollution decreased by 15,000 in simulation 2 while the alligator decreased by 35,000 and the mosquito increased by 35,000
5. Mosquitoes can carry and transmit disease to animals and humans. Explain how the cricket frog plays an important role in limiting the spread of mosquito-borne illnesses like West Nile virus and malaria.
The frog predate the mosquito, so the population of frog will decrease the population of the mosquito. The mosquito borne illness is transmitted by the mosquito that contact the pathogens. If the population of mosquito decreased, there will be less mosquito that contact the pathogens. There will be less mosquito that transmit the disease too.
6. Predict the long-term effects of these limiting factors on the cricket frog population in the pond ecosystem.
Increase in predator population will decrease the population of food, and if the food start to decline the predator population will be decreased. Their interaction will prevent the population of one factor to become too big.
In long term, these factors will achieve a stable range. Unless there is a new limiting factor that cause changes in their interaction, the population should be kept at the stable range.