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One of your friends has experienced a circulatory problem. A physician has diagnosed this as a problem in fluid mechanics and recommends corrective surgery. You, as an expert in fluid mechanics, are called upon to assess the correctness of the diagnosis: i.e., to provide a "second opinion". The physician believes that a shoulder artery, which is normally required to carry a flow of 1.2 liters/minute of blood has become pinched or constricted by an overgrowth of the adjacent bones. The normal artery has an internal diameter of 0.4 cm at this position. The physician believes that a 4 cm long section has had its cross sectional area reduced by a factor of four. These dimensional data are taken from X-ray negatives and are presumably correct. The stress-strain relationship for blood is described by the Bingham plastic equation. However, let us make the simplifying assumption that blood is a Newtonian fluid with density = 1050 kg/m³ and viscosity = 3.2×10-³ Pa·s. (a) Compute the normal pressure drop through the 4 cm long section of artery with a diameter of 0.4 cm.