only solve part a do not worry about the calculation thx The

only solve part a, do not worry about the calculation. thx

The Venturi Meter equation is similar to the Orifice Meter equation derived in class with C_v instead if C_o. Given a literature C_v of 0.98 calculate one of the flowrates from your experiment and see if you get agreement with the measured value. upsilon = C_upsilon/Squareroot 1 - (D_throat/D_pipe)^4 Squareroot P_1 - P_2/rho-fluid = What does C_v account for physically?

Solution

Cv is venturimeter coefficent and defined as the ratio of the actual discharge to the theoretical discharge i.e., the ratio of the mass flow rate at the discharge end of the venturi to that of an ideal venturi which expands an identical working fluid from the same initial conditions to the same exit pressures.This parameter is useful for determining the irrecoverable losses associated with a certain piece of equipment (constriction) in a fluid system, or the \"resistance\" that piece of equipment imposes upon the flow.