We are diploid organisms thus require two sets of chromosomes. In order to ensure the zygote is a diploid (has 2 sets of chromosomes) the gametes must be haploids (has 1 set of chromosomes) as two gametes join to make a zygote.
Having half the set of chromosomes also ensures that the offspring receives half of its chromosomes from its father and half from its mother. This becomes very important as to ensure there is genetic diversity in the offspring, both the fathers and mothers genes are needed.
Answer:
Explanation:
The molar mass of ammonia carbonate
(NH4)2. C03
The atomic weight of Nitrogen is 14.01g/mol
The atomic weight of Hydrogen is 1.008g/mol
The atomic weight of Carbon is 12.01g/mol
The atomic weight of Oxygen is 16g/mol
2(14.01 +1.008x4)+ 12.01+ 16.0 × 3
2(14.01 + 4.032) + 12.01 + 48
2(18.042) + 60.01
36.084 + 60.01 = 96.09g/mol = c
Assuming that the concentration is given as 0.010M (there is a big difference between m and M):
Sulfuric Acid (H2SO4) is a strong acid, and thus will completely dissociate into ions in solution. This will result in
For each mole of H2SO4, there will be 2 moles of H+. So, [H+] = 0.0200M
I can’t see the image, can you name some of the energy resources under this comment?
In the malate–aspartate shuttle, electrons are transferred from <u>oxaloacetate</u> to form malate.
A crucial mechanism employed by mitochondria, the malate-aspartate shuttle system, also known as the malate shuttle, enables electrons to pass through the impermeable membrane separating the cytosol as well as the mitochondrial matrix. Glycolysis produces the electrons which are required for oxidative phosphorylation.
The liver, heart, as well as kidney, include the malate-aspartate shuttle, which produces about three molecules of ATP for every cytosolic NADH molecule. Under aerobic conditions, it constitutes quantitatively the most significant shuttle for such reoxidation of cytosolic NADH in vertebrate tissues.
Therefore, In the malate–aspartate shuttle, electrons are transferred from <u>oxaloacetate</u> to form malate.
To know more about electrons
brainly.com/question/1255220
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