Solve the question below in detail, as soon as possible!!

- Met Consider the liquid phase cis - trans isomerization of 2-butene which we will write symbolically as AB The first order (rA=kCA) reaction is carried out in a tubular reactor in which the volumetric flow rate, v, is constant, i.e.. v=v0. 1. Sketch the concentration profile. 2. Derive an equation relating the reactor volume to the entering and exiting concentrations of A, the rate constant k, and the volumetric flow rate v. 3. Determine the reactor volume necessary to reduce the exiting concentration tc 10% of the entering concentration when the volumetric flow rate is 16 dm3/min (i.e., liters /min ) and the specific reaction rate, k, is 0.23min1. - Met Consider the liquid phase cis - trans isomerization of 2-butene which we will write symbolically as AB The first order (rA=kCA) reaction is carried out in a tubular reactor in which the volumetric flow rate, v, is constant, i.e.. v=v0. 1. Sketch the concentration profile. 2. Derive an equation relating the reactor volume to the entering and exiting concentrations of A, the rate constant k, and the volumetric flow rate v. 3. Determine the reactor volume necessary to reduce the exiting concentration tc 10% of the entering concentration when the volumetric flow rate is 16 dm3/min (i.e., liters /min ) and the specific reaction rate, k, is 0.23min1