A simple model for the flow of air in and out of the lungs of a certain mammal is given by the following equation, where \( \mathrm{V}(\mathrm{t}) \) (measured in liters) is the volume of air in the lungs at time \( t \geq 0, t \) is measured in seconds, and \( t=0 \) corresponds to a time at which the lungs are full and exhalation begins. Only a fraction of the eir in the lungs is exchanged with each breath. The amount that is oxchanged is calted the tidal volume. Complete parts a through \( \mathbf{c} \) below. \[ V^{\prime}(t)=-\frac{\pi}{6} \sin \left(\frac{\pi t}{6}\right) \] a. Find the volume function V , assuming that \( \mathrm{V}(0)=6 \mathrm{~L} \). Notice that V changes over time at a known rate, \( \mathrm{V}^{\prime} \). Which equation below correctly gives the volume function? A. \( V(0)=V(t)+\int_{0}^{1} V^{\prime}(x) d x \) B. \( V(t)=V(0)+\int_{0}^{1} V^{\prime}(x) d x \). c. \( V(t)=V(0)+\int_{a}^{b} V^{\prime}(t) d t \) D. \( V(0)=V(t)+\int_{a}^{b} V^{\prime}(t) d t \). Find the volume function \( V \), assuming that \( V(0)=6 \mathrm{~L} \). \[ V(t)=5+\cos \left(\frac{\pi t}{6}\right) \text { (Type an exact answer.) } \] b. What is the breathing rate in breaths/minute? The breathing rate is 5 breaths/minute. (Type an integer or a simplified fraction.) c. What is the tidal volume and what is the total capacity of the lungs? The tidal volume is \( \square \) liter(s). (Type an integer or a simplified fraction.)