Related MCQs

• Find the actual mass flow rate for a discharge correction factor ( d) of 1.15. For an ideal nozzle of same design and initial state, the following information is given: Volume flow rate (Q) = 0.53 m3/s; static temperature (T) = 590 K; static pressure (P) = 0.15 MPa; R = 287 J/kg/K.
• Determine the velocity correction factor ( v) if the energy conversion efficiency is 0.94.
• Which of the following terms denote the ratio of kinetic energy per unit flow of the actual jet leaving the nozzle to that of a hypothetical ideal one with the same working substance, initial state and exit pressure as that of the actual exhaust jet?
• Which of the following is not correct for transient periods when compared to steady periods of rocket operation?
• How do the characteristic velocity (c) and the specific impulse (Isp) vary as particle fraction is increased?
• Which of the following is the correct expression for particle fraction ? Given: Total mass = mT, mass of the particles = mp.
• What happens to the solid particles in multiphase flow at the nozzle exit when the size of the particles increases?
• In which of the following cases is the effect of the boundary layer more pronounced?
• In a boundary layer flow along with the nozzle, why is the layer closest to the wall cooler?
• For an asymmetric nozzle section of diameter 12 cm, determine the average value of flow velocity if the velocity distribution is of the form v2 = (2r 3r2) x 104 m/s, where r denotes the radial location in the cross-section plane.