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Young's modulus for AISI/SAE 1045 steel is 29.0 x 10 ^6 psi and its poisson's ratio is 0.32. What are its shear and bulk modulus?
Methane (CH4) at 25 degree Celcius, 1 bar enters a furnace operating at steady state and burns completely with 240% of theoretical air entering at 400K, 1 bar.
How should the company hire and train its new employees so that the labor cost is minimized? Formulate the problem as a linear program.
What is the overall accuracy error (systematic error)? Discuss what corrective action, if any, should be taken to make the micrometer more precise.
A piston-cylinder device contains 0.1 m3 of liquid water and 0.9 m3 of water vapor in equilibrium at 800 kPa. Determine the total mass of the water.
Determine the power transmitted to the pulley, in horsepower, and the rotational speed of the pulley, in rpm. The acceleration of gravity is g = 32.0 ft/s^2.
The steel of the bend material weighs 51 kg. Neglecting friction or other losses in the pipe, what is the tension force in the bolts holding the bend in place?
Determine the yearly electrical cost to operate this motor. Is it advisable to replace the motor with a new 95% efficient unit if the replacement cost (with trade in) is $5,000?
How many seconds will it take for the lactate concentration at the center of the muscle to drop to one-tenth the initial value?
Find the permeability of the Membrane for transport from side A to side B. Would the magnitude of sucrose flux through the membrane be the same if the fluid concentrations were reversed?
The acceleration of gravity is g 32.0 ft/s2. Determine the power transmitted to the pulley, in horsepower, and the rotational speed of the pulley, in RPM.
What is the heat transfer rate (in kW) to the house? Develop the energy balance for the house and use it to determine how long will it take (in min) for the temperature in the house to rise to 22 C
The temperature reaches 1800 K at the end of the combustion process. Assuming variable specific heats. Determine the maximum pressure, P2 (in Kpa).
A viscous fluid flows past a flat plate such that the boundary layer thickness of a distance "D" from the leading edge is "h". Determine the boundary layer thickness at a distance "L" from the leadi
Determine cycle efficiency. Determine mass flow rate of the condencer cooling water in kg/h if water enters at 15 degrees celcious and exits 25 degrees celcious.
A drug delivery system is based on a new design of catheter. How long will it take to supply the required amount of drug?
The bottom wall of the channel is noticeably rough at a distance of 1 m from the exit. Will flow disturbances created by the roughness affect measuring sensors distributed along the top wall? Why?
What is the stagnation pressure and Mach number of flow entering nozzle? What should throat and exit area be if exit mach number is 2?
Derive an equation that can be integrated to find the angular velocity of the bar as it passes through the vertical position. The image is of a bar that is released from horizontal rest.
The accompanying table provides additional data at the two states. It is claimed that the water undergoes an adiabatic process between these states while developing work. Evaluate this claim.
Assuming neglible heat transfer between the bucket and the environment. Find the final equillibrium temperature after quenching. Find the amount of entropy produced in the bucket.
If the parameters are the depth D of the friction layer, the length L from the leading edge, the dynamic viscosity mu, the density rho, and the free stream velocity V0, find the relative pi groups.
A Diesel cycle operates with a compression ratio of 15, and a cutoff ratio of 2.5. What is the rate of heat input required for this cycle to produce 223.8 kJ/s?
Assuming the time scale to be given by L/U, nondimensionalize this equation and indicate what the non-dimensional parameters are.
Suppose heat is transferred into the gas, so that it is 303 degrees K at location 2. Assuming the pressure is constant, what will be velocity at location 2?