NOTE: Uo is 31.67

Part I. Steady flow in a converging blood vessel Blood is flowing in a rigid circular blood vessel with a converging geometry with length L = 10 cm and initial radius Ro = 1.5 cm. The flow in the converging section can be modeled by the following equations: X u=v. (**+1) v = - by where U is has a value given by the average of numbers obtained from the last two digits of the student ID of the team members, in cm/s, x is the horizontal coordinate, and a, b are two constants. Complete the following tasks: Find a pair of values a, b that satisfy the conservation principles for this problem. Find the velocity and flow rate at the exit of the converging section. Find the pressure drop across the whole blood vessel (straight plus converging section) Complete the following tasks using MATLAB: Create a 2D vector plot for the flow in the converging section Plot 20 streamlines of the flow field. Part I. Steady flow in a converging blood vessel Blood is flowing in a rigid circular blood vessel with a converging geometry with length L = 10 cm and initial radius Ro = 1.5 cm. The flow in the converging section can be modeled by the following equations: X u=v. (**+1) v = - by where U is has a value given by the average of numbers obtained from the last two digits of the student ID of the team members, in cm/s, x is the horizontal coordinate, and a, b are two constants. Complete the following tasks: Find a pair of values a, b that satisfy the conservation principles for this problem. Find the velocity and flow rate at the exit of the converging section. Find the pressure drop across the whole blood vessel (straight plus converging section) Complete the following tasks using MATLAB: Create a 2D vector plot for the flow in the converging section Plot 20 streamlines of the flow field