Solved

Solve the Problem $\log R(w)=1.85-0.33 \log (w)$ Where $\mathrm{w}$ Is the Body Weight (In

Question 2

Multiple Choice

Solve the problem.
-The correlation between respiratory rate and body mass in the first three years of life can be expressed by the function
$\log R(w) =1.85-0.33 \log (w)$
Where $\mathrm{w}$ is the body weight (in $\mathrm{kg}$ ) and $\mathrm{R}(\mathrm{w}$ ) is the respiratory rate (in breaths per minute) . Find $R^{\prime}(w)$ using implicit differentiation.

A) $R^{\prime}(w) =-23.36 w^{-0.67}$
B) $R^{\prime}(w) =70.79 w^{-1.33}$
C) $R^{\prime}(w) =-23.36 w^{-0.33}$
D) $R^{\prime}(w) =-23.36 w^{-1.33}$

Solve the Problem log⁡R(w)=1.85−0.33log⁡(w)\log R(w)=1.85-0.33 \log (w)logR(w)=1.85−0.33log(w) Where w\mathrm{w}w Is the Body Weight (In

Multiple Choice

Correct Answer:VerifiedShow Answer

Solve the Problem $\log R(w)=1.85-0.33 \log (w)$ Where $\mathrm{w}$ Is the Body Weight (In

Correct Answer:
Verified