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Before developing the dead-weight gauge, he worked in a mine shaft, and used a mercury manometer for measurements of pressure to more than 400 bar. Estimate the height of the manometer required.
Calculate the air flow rate for stoichiometric combustion. If the engine is operating at 1500 rev/min, estimate the mass of fuel and air entering each cylinder per cycle.
Find the equation of the path, y=f(x), and the determine the ball's velocity and the normal and tangential components of its acceleration when t=0.25s
Determine the magnitude of the radial component of force acting on the particle when t=1s. What is the transverse component of force acting on the particle?
Calculate the absolute pressure head, the gage pressure, the gage pressure head, the vacuum pressure, and the vacuum pressure head under standard conditions.
The automobile is originally at rest at s = 0. If its speed is increased by v dot = (0.05 t^2) ft/s^2, where tis in seconds.
While air flows through the duct, it gets cool down (loses energy) so that air leaves the duct at 54 C. Determine the rate of heat loss from the air under steady condition.
A wheel of radius r and centroidal radius of gyration k is released from rest and rolls without slipping on the illustrated inclined plane.
Air flowing in a duct has dry and wet bulb temperatures of 78 F abd 65 F respectively. Use psychrometric charts to find enthalpy, specific volume, humidity ratio, and relative humidity in english and
The environmental conditions in a room are to be regulated so that the dry bulb temperature will be greater than or equal to 72 F and the dew point will be less than or equal to 52 F.
Determine (a) the rate of shaft work transfer (in kW), (b) the electrical work transfer (in kJ) in 10 s, (c) the rate of heat transfer (in kW). Include the sign in all your answers.
Find the equation of the path, y=f(x), and then determine the ball's velocity and the normal and tangential components of its acceleration when t=0.25s.
Use properties evaluated at [(20 + 4 0)/2 ] degree C for the whole problem, but report the local error in h at the end to get a sense of the error incurred by the simplification.
The now stays laminar until a noisy air compressor is turned on in the laboratory. Then it suddenly goes turbulent. Calculate the ratio of the turbulent n to the laminar [n turb = 4429 W/m2K.]
Find (a) the approximate location of the laminar turbulent transition; (b) the overall h- for a 2 m chord; (c) h at the trailing edge for a 2 m chord; (d) delta and h at the beginning of the transit
Assuming first-order kinetics, how long must this can be heated at this temperature to reduce the probability of having a single spore to an average of 1 in 1 million cans?
What is the velocity of the object in meters per second just before striking the ground? How much work is done on the object?
An open rectangular tanks is 3m wide and 4m long. The tank contains water to depth of 2m and oil (SG=0.8) on top of the water to a depth of 1m.
If the x component of acceleration is a_x = (t^2/4) m/s^2, where t is in seconds, determine the magnitude of the rocket's velocity and acceleration when t = 10 s.
Determine the reading on the gage when the piston has compressed the air to the one-third its original volume. Assume the compression process to be isothermal and the local atmospheric pressure to b
With a sphygmomanometer, as pressure is released, the height of the mercury column is recorded at two points as blood begins to flow back to the hand. What is the upper blood pressure in kPa?
The diameter and length of the rod are D = 20mm and L = 100mm, respectively. Determine the heat flux along the rod, q"(sub x). The mass of the rod is M = 0.248 kg.
R.C has no preferred stock, and no new common stock was issued during the year. if R.C's year-end debt (which equals its total liabilities) was $240 million, what was the company's year-end debt rat