From experiments performed in water at 1.00 atm, 25°c, with ca0 = c b0 = 2.0 m, the rate is found to vary with fractional molar conversion of a (f_a) according to: 1/(-r(f_a ) )=0.33-1.27f_a-5.37f_a^2 [=] (l•hr)/mol calculate the time (hr) required to obtain 0.60 fractional molar conversion in a batch reactor containing 1,000 l of solution in which the initial concentration of each species is 2.0 m, and p and t are held constant at 1.0 atm and 25°c, respectively. calculate the volumetric flow rate (l/hr) of a stream containing 2.0 m of each reactant that is converted using a 1,000 l pfr to a fraction molar conversion of 0.60. calculate the volumetric flow rate (l/hr) of a stream containing 2.0 m of each reactant that is converted using a 1,000 l cstr to a fractional molar conversion of 0.60.