Kerosene is being pumped at a rate of 1.2 kg/s from an open storage tank to a pressurized reactor, whose gas headspace is maintained at a pressure of 30 kpa (gauge). the liquid level in the reactor is 8.5 m lower than that in the storage tank. the frictional energy loss as the kerosene flows through the 1-inch nominal, schedule 80, steel pipe is 140 j/kg. the density and viscosity of kerosene are 910 kg/m3 and 0.65 x 103 kg/mes, respectively. determine the information requested below. steel pipe diameter data are given in appendix 3 of the text. a. the kerosene's velocity in the pipe. b. whether the flow is laminar or turbulent. c. the kerosene's volumetric flow rate. d. the electrical power required by the pump, whose efficiency is 65%. e. the momentum flow rate (m) of the kerosene it exits the pipe and enters the reactor