The answer is <span><span><span>ΔSrxn>0 and ΔHrxn<0</span>
</span>This is because of the thermodynamic equation of the Gibbs Free Energy given by:
</span>ΔG<span> = Δ</span>H<span> – </span>TΔS
First, it is important to note that spontaneous reactions are usually given by ΔG <0, ΔH<0 and ΔS>0. However, ΔG is the most important identifier of a thermodynamic process, so it is best to figure out the conditions that would give a negative ΔG.
For the equation's first term (ΔH), ΔG decreases when ΔH is decreased. For the second term TΔS, it can be observed that ΔG decreases when TΔS is increased due to the negative or minus sign.
So for all temperatures, ΔG is kept negative if ΔH is negative and TΔS is positive (because of the negative sign).
Answer:
Explanation:
The rate of the forward reaction is less than the rate of the reverse reaction. ... The reaction rates of the forward and reverse reactions are equal
Answer:
The correct answer is 1.
Explanation:
The metabolism of homocysteine produces a sulfur amino acid that is normally formed from methionine during the fulfillment of its function as a donor of methyl groups. Metabolic fate such as remethylation and transsulfuration, involving the enzymatic forms of the vitamins folacin, B12, and B6, gives rise to homocysteine and mixed disulfides including so-called protein-linked homocysteine, the main form circulating in plasma. B6 deficiency would have a direct impact on the metabolism of homocysteine to cysteine.
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Urmmm??????? What is the question
That is correct. Positional isomers are compounds that have the same number and type of atoms. The only difference is that they are simply arranged in different ways.
