The ratio of the moles of CO$_2$ evolved to the moles of O$_2$ consumed in respiration, also called the respiratory quotient (RQ), is calculated for a carbohydrate (C$_6$H$_{12}$O$_6$) as substrate and found to be 1. Under similar conditions, for a fatty acid (C$_{51}$H$_{98}$O$_6$) as substrate, the respiratory quotient is ________________ (rounded off to two decimal places).
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- Fats: RQ<1 (generally 0.7–0.8)
- Proteins: RQ ≈ 0.8–0.9
Correct Answer: 0.65
Solution and Explanation
\[ RQ = \frac{\text{moles of CO$_2$ produced}}{\text{moles of O$_2$ consumed}} \]
Step 2: Respiration equation for carbohydrate (glucose).
\[ C_6H_{12}O_6 + 6O_2 \rightarrow 6CO_2 + 6H_2O \] Here, CO$_2$ produced = 6, O$_2$ consumed = 6. \[ RQ = \frac{6}{6} = 1 \] This matches the given condition.
Step 3: Respiration equation for fatty acid (C$_{51}$H$_{98}$O$_6$).
The oxidation equation is: \[ C_{51}H_{98}O_6 + 72.5O_2 \rightarrow 51CO_2 + 49H_2O \]
Step 4: Calculate RQ.
\[ RQ = \frac{51}{72.5} \approx 0.703 \approx 0.71 \] Final Answer: \[ \boxed{0.71} \]
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According to the generally accepted definition of the ideal solution there are equal interaction forces acting between molecules belonging to the same or different species. (This is equivalent to the statement that the activity of the components equals the concentration.) Strictly speaking, this concept is valid in ecological systems (isotopic mixtures of an element, hydrocarbons mixtures, etc.). It is still usual to talk about ideal solutions as limiting cases in reality since very dilute solutions behave ideally with respect to the solvent. This law is further supported by the fact that Raoult’s law empirically found for describing the behaviour of the solvent in dilute solutions can be deduced thermodynamically via the assumption of ideal behaviour of the solvent.
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OR
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