The population of grasshoppers may enhance rapidly when there will be sufficient amount of food present and an absence of pathogens.
A Population may be defined as the number of individuals of the same species living in a specific area over a period of time.
Grasshopper completely depends on the plants to run their life cycle. But if any pathogen or pest infect the population of plant and causes very severe diseases, the population of the grasshopper may suddenly fall.
On contrary, if plants are healthy and disease-free, it reflects that the population of the grasshopper may increase rapidly.
Therefore, it is well described above.
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Answer:
Raindrops are very effective in the removal of the topsoil. During rainfall, the raindrops strike the surface of the soil, as a result of which the soil particle are broken apart and are washed away from that place dislocating its nutrient particles that favors the growth and expansion of the plants. In simple words, it leads to the removal of the top soil, thereby losing the fertility of the soil.
Thus, raindrops are particularly damaging elements to the soil.
Answer:
i know this! its evaporation.
Explanation:
Answer:
evaporation
it is a way that uses heat to create vapor in the atmosphere
Answer:
I guess food store advertisements
Explanation:
If I see any advertisements of food in the internet I would see if they are good or not :)
The right answer is 5.
To answer this question, we must think in the same way as the demonstration showing that codons of 3 are necessary to encode an amino acid (in terrestrial species).
To calculate the number of nucleotides in a codon in these new species: we should use the law of:
nucleotides existing ^ (number of nucleotides in a codon) = number of codons. (in order to have the number of possible codon combinations)
The number of codons must be greater than or equal to the number of amino acids (17).
2 ^ 1 = 2 (<17)
2 ^ 2 = 4 (<17)
2 ^ 3 = 8 (<17)
2 ^ 4 = 16 (<17)
2 ^ 5 = 32 (> 17)
32> 17 so the number of nulceotides in a codon must be 5.
The minimum size of a codon for the hypothetical Martian life-forms, which use only two bases (A and T) and have only 17 amino acids in their proteins, should be five bases. This size is needed to generate a minimum of 17 different codons.
The question is asking for the minimum size of a codon in these hypothetical Martian life-forms that use only two bases (A and T) in their DNA and have only 17 amino acids in their proteins. To analyze this, we must comprehend how codons function. A codon is a sequence of nucleotides in RNA that codes for a specific amino acid in a protein. In life on Earth, each codon is made up of three bases (each base can be A, T, C, or G), which makes for a total of 4^3 = 64 possible codons coding for 20 different amino acids.
However, in the Martian organisms, there are only two available bases (A and T) for constructing codons. In order to generate at least 17 different codons to code for the 17 different Martian amino acids, each Martian codon would have to be made up of at least 5 bases (since 2^4 = 16 is not enough, and 2^5 = 32 would be sufficient).
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