Answer:
Because their different places so they have differencee
Explanation:
From the Hardy-Weinberg equilibrium, the genotype frequencies in the surviving population after this selection event is A = 0.25, and a = 0.75.
<h3>What is the Hardy-Weinberg equilibrium?</h3>
The Hardy-Weinberg equilibrium describe the equilibrium which exists between the alleles of a species of organism when no external forces are acting on the population.
In Hardy-Weinberg equilibrium, the sum of allele frequencies is 1.
The allele frequencies for A and a are each = 0.5: therefore, A + a = 1
When the chances of survival of A is 0.5 and a = 1
Frequency of A = 0.5 × 0.5 = 0.25
Then a = 1 - 0.25 = 0.75
Therefore, the genotype frequencies in the surviving population after this selection event is A = 0.25, and a = 0.75.
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1) Lipids are the waxy, greasy, oily molecules found in the body.
2)They are water-insoluble (hydrophobic), and this property is useful in the organisation of cells and tissues.
3)Lipids can be extracted from cells using non-polar solvents . Example chloroform or benzene.
The people that interfere with cytokinesis in the cells of dividing animals are gene mutations that encode actin.
<h3>How does cytokinesis occur in animal cells?</h3>
Cytokinesis occurs in anaphase in animal cells and prophase in plant cells, then ends in telophase (both in animals and plants). Cytokinesis is the division of the nucleus into two equal parts, each of which contains an identical set of diploid chromosomes to the parent cell.
Cytokinesis in animal cells begins with a groove that occurs right on the cell surface in the equatorial region. On the surface of the cell, there is a contractile ring formed by contracting actin and myosin microfilaments
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