Galapagosfinches evolved partly due to variation and competition. When there is variation within a species and competition for resources, the individuals with the best adaptations to their environment are more likely to survive and reproduce.
This is because they are better able to find food, water, and nesting sites, and they are less likely to be killed by predators.
Variation refers to the differences between individuals within a species. These differences can be caused by mutations, which are changes in the DNA of an individual. Mutations can be beneficial, harmful, or neutral.
Competition refers to the struggle between individuals for limited resources. In the case of Galapagos finches, the limited resources are food, water, and nesting sites.
Over time, the accumulation of beneficial mutations and the elimination of harmful mutations can lead to the evolution of new species. This is what happened with Galapagos finches.
The original finches that arrived on the islands were able to survive and reproduce, but they faced different challenges in different parts of the islands.
The finches that were best adapted to their environment were more likely to survive and reproduce, and over time, these finches evolved into different species.
To know more about variation:
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O 2,500 mg
O 250 mg
O 2.5 mg
O 50 mg
To calculate the dosage of a drug given in mg/kg for a person, multiply the dosing rate by the person's mass. In this case, the dosing rate is 50 mg/kg and the mass of the person is 50 kg, yielding a total dosage of 2,500 mg.
When administering a drug with a dosing rate that is given in mg/kg, you need to multiply the dosing rate by the patient's mass to determine the proper dosage. In this case, we use the formula:
Dose = Dosing rate × mass
Substituting the given values into the formula:
Dose = 50 mg/kg × 50 kg, which equals to 2,500 mg.
Therefore, you need to administer 2,500 mg of the drug to the patient.
#SPJ2
Answer: True
Explanation:
Just like digital information the genetic information is stored, retrieved, processed and translated by the cell
Both of them are similar in some ways like the hard drive is similar to the DNA whilst the words are to protein, bytes to condon, bits to nucleotides, the letters to the amino acids and the ASCII table is similar to the condon table.
But the simplest operational cell is still more complex than a computer. If you get one thing wrong in the code the whole program will crash but if the same happens in the DNA it may just turn out to be better.