Answer:
B. Rotations of Earth
Explanation:
The Earth's rotations create both ocean currents and atmospheric movement (wind). This is called the Coriolis force.
<span>Diffrences
plants have complex transportation systems (xylem) to transport water it goes from a source (water) to a sink (leaves) and algae doesn't have connective tissue instead all the cells absorb water directly from the source
plants have numerous ways to reproduce and such as forming seeds or asexually while algae tends to have more primitive and less numerous ways to reproduce.
plants are multi-cellular organisms while algae can be multi-cellular and uni-cellular or even colonial
they occupy different kingdoms plant: plantae and algae: protista
many algae can move through water via many mechanisms such as tails like flagella to swim through water
Similarities
</span><span>both plants and algae tend to be non-locomotive they can both have root like structures to support themselves
they are both Eukaryota cells as they have cells with many components
they are both autotrophic (make their ow food) can both photosynthesise by the absorption of sunlight
they can both be found in many environment and in a large variety of biomes
hope that helps
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Answer:
GUI is not a valid codon...
GCG: Alanine
CCA: Proline
Answer:
0.50
Explanation:
According to the given information, the frequency of the hornless genotype in the population is = 16% = 0.16. This means that the frequency of the hornless allele in the population is = square root of 0.16 = 0.4.
The gene for the horns in unicorn has three alleles. If the frequency of the allele for twisted horns is represented by "p" and that of the hornless allele is represented as "q", then the frequency of the allele for the longhorn would be (r) = 1- (p+q).
This is due to the fact that the sum total of frequencies of all the possible alleles of a particular gene in a population in the Hardy Weinberg Equilibrium is always 1 (p+q+r =1). Now, putting the values of p and q in the formula to calculate the frequency of allele for the longhorn (r) = 1- (0.1 + 0.4) = 1-0.5 = 0.5