Question is incomplete. Complete question has been attached.
Answer:
0.91
Explanation:
According to Hard-Weinberg equilibrium, allele frequency in a population remains constant in absence of an evolutionary force. Hardy-Weinberg equilibrium equation for two alleles is as follows:
p + q = 1
where,
p = frequency of dominant allele
q = frequency of recessive allele
Here,
q = 0.09
So, p = 1-q
= 1 - 0.09
= 0.91
Hence, frequency of dominant allele = 0.91
Answer:
a controls what enters and leaves the cell
Explanation:
Answer:
c
Explanation:
b/c Estuaries and their wetland. it depends on the fish species, spawing occurs in the river etc...
<em><u>G</u></em><em><u>O</u></em><em><u>O</u></em><em><u>D</u></em><em><u>LUCK</u></em>
Hormone production is an example of positive feedback
Biological domain Animalia is <u>heterotrophic</u>
Answer: Option B
<u>Explanation:</u>
The Animalia kingdom follows the heterotrophic mode of nutrition which means it depends on other organisms for their nutrition while autotrophs produce their own food. Carbon is the main source of energy. The heterotrophs get carbon from consuming these organic resources.
The cells are eukaryotic and they are multicellular organisms.They do not have a cell-wall. They intake large molecules and using their different organ system break down the food into simpler substances which provides nutrition and energy for the organism to survive.