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What's the maximum acceleration of the car from a standing start on flat ground, if engine power and torque were unlimited?
For each pair of second-order system time domain specifications below, find the corresponding region for the poles in the s-plane.
It is metered by a modern venturi Nozzle with d=4 cm. The measured pressure drop is 8.5 kPa. Estimate the flow rate in gallons per minute.
Its location can be given by coordinates (- 3, 10). Determine the angular momentum Hp about point P that is 4 m to the left of the point particle and 3 m below it.
Determine the mass of the refrigerant that entered the tank, the amount of heat transfer with the surroundings at 120oF, and the entropy generated during this process.
Calculate the final temperature of the system, neglecting the heat loss to the cup and the Outside. The specific heal of water is 4.2 kJ/kg0 degree C and the latent heat of melting of ice is 335 kJ/
Determine the power required by this air conditioner and compare this with the minimum theoretical power required for any refrigeration cycle operating under these conditions, each in kW.
A Carnot heat engine using 1 kg of air has the following conditions: heat addition beginning at 15 MPa and 1200 K. Determine the heat transfer into the cycle in KJ.
For dynamic similarity between the two, Reynolds numbers must be identical. What is the required velocity in the model for dynamic similarity?
The diameter of a cast-iron pipe is 12.5 in and the Reyolnds number for the flow of water through the pipe is estimated as 4.0 x 10^5. What is the resistance coefficient for this condition and pipe
The top dead center is 14 percent of the bottom dead center. Under these conditions, how much power will this engine produce when operated at 2500 rpm? Use cold air standard assumptions.
An ideal gas power cycle is executed within a closed piston-cylinder system and consists of three processes as follows. Determine the maximum temperature of the cycle.
The local shear stress measured at the surface of the plate is 0.085 N/m^2. What is the velocity at a point 0.78 cm from the plate surface?
It heat is supplied continuously during the process in order to keep the temperature constant. Calculate the change in internal energy per unit mass of steam.
Determine using Pauling's rules, the like coordination number for the cations and anions, and give the likely structure type for each oxide. Explain.
Determine the work per unit mas of air, for an adiabatic process between those states. If no, determine the direction of the heat transfer.
If the maximum transverse shear force in the beam is 15 kN, and if the maximum shear force each weld can resist is 5 kN, calculate the maximum allowable spacing between each weld.
A steel plate, which is 1.5 m by 1.5 m and 30 mm thick, is lifted by four cables attached to its corners that meet at a point that is 2 m above the plate.
The flow of water is 4 ft^3/s. What horsepower is delivered by the pump to the flow if the efficiency of the pump is 80%?
The differential gage attached to the Pitot static tube shows a 3-in deflection of mercury (S.G. = 13.6). What is the velocity of the carbon tetrachloride and what is the flow rate in gallons per mi
What is the increase in force exerted with every 1 in. increase in length? If a force of 2lb is applied, what is the change in the strip's length and width?
The exit diameter of the pipe is 0.113 m. Find the flow rate, the velocity, and the acceleration of the flow at the exit at t=2 seconds.
The pressure at section 1 is 156 kPa gage, and the atmospheric pressure prevails at the exit of the jet. Calculate the speed of the flow at the nozzle exit and the force required to hold the nozzle
The increased weight in the tank is 4765 lbf. What is the average flow rate in gallons per minute and in cubic feet per second?
Steam at 4800 lbf/in^2, 1000 F enters the first stage of asupercritical reheat cycle including two turbine stages. Determine the rate of heat transfer to the working fluid passing through the steam ge