When a cell undergoes meiosis,the outcome of the process is FOUR HAPLOID CELLS.
Meiosis refers to a form of cell division which always results in the formation of four daughter cells. The four daughters cells produce have diploid cells which contains half the original of chromosomes from the parents. A diploid cell has two of each chromosome, one from each parent. The eggs and the sperms that are involved in reproduction possess haploid cells. In meiosis, the whole process start with diploid cells which divide twice to produce four haploid cells.
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The second skater accelerates at 6 
to the right.
- Let the first skater be F.
- Let the second skater be S.
<u>Given the following data:</u>
- Acceleration of F = 3
To find the acceleration of the second ice skater, we would apply Newton's Second Law of Motion:
Mathematically, Newton's Second Law of Motion is given by this formula;
× 
Substituting the given values, we have;
× 
<em>Force </em><em>= </em><em>300 Newton</em>
<u>Note:</u> The same force is acting on the two ice skaters and the second ice skater would be pushed in the opposite direction (right).
Now, we would find the acceleration of the second ice skater:
<em>Acceleration of S </em><em>=</em><em> 6 </em><em />
Therefore, the acceleration of the second ice skater is 6 to the right.
Read more here: brainly.com/question/24029674
Answer:
D. sister chromatids; centromere
Explanation:
The correct answer is D. Hot and Arid.
This is because the roots of the plants wouldn't need long roots to find a cool wet place if the other conditions of A. B. or C. we're present.
The answer depends on the nature of the error. If the error is due a substitution mutation (change in one base pair) in the mRNA no changes may occur as most amino acids are coded for by more than one triplet. However it may also cause another amino acid to be placed in the protein primary structure than the correct amino acid.
If however a deletion or addition occurs in the mRNA (where a base is deleted or added) a frameshift mutation may occur, meaning all the amino acids placed after the mutation will be wrong.
This means the primary protein structure could be shorter or longer than the correct protein. The protein may not be functional, as a change in the primary structure of the protein (the sequence of amino acids in the protein chain) will change and therefore there may be incorrect folding and bonding in secondary and tertiary structures, altering the 3d shape of the protein.
