Basically it involves translations:
Once you have your mRNA (which now only has exons) it then binds with rRNA (ribosomal RNA)
It reads a start codon, and then the tRNA reads a complimentary anticodon which codes for a specific amino acid.
Essentially the amino acids then interact elongate, and then you have a long chain of amino acids (primary structure of a protein)
Then there is a lot of folding, di-sulfide bridges and other interaction that then make the amino acids into a protein like haemoglobin (red blood cell)
The correct matches are as follows:
<span>1. Na+ + Cl- → NaCl
</span><span>synthesis reaction
</span><span>
2. CCl4 → C + 2Cl2
</span><span> decomposition reaction
</span><span>
3. H+Cl- + Na+OH- → Na+Cl- + H2O
</span>exchange reaction<span>
4. ADP + P + E ATP
</span> reversible reaction
Hope this answers the question. Have a nice day.
P=red (recessive)
q=purple (dominant)
Assume the count of 59/100 was taken at Hardy-Weinberg equilibrium, then the H-W equation applies.
(p+q)=1 = p^2+2pq+q^2
where p^2 (recessive) = 0.59
and 2pq+q^2 (dominant) = 0.41
solve for p = sqrt(0.59) = 0.7681
=>
q=1-p = 0.2319, or 0.23 (to to decimals)