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A cylindrical rod of diameter 2 0 mm and length 1 m is subjected to a tensile force of 3 0 kN . Calculate the

A cylindrical rod of diameter 20 mm and length 1 m is subjected to a tensile force of 30 kN. Calculate the stress and strain in the rod. Assume Young's modulus for the material is 210 GPa.
Thermodynamics:
A Carnot engine operates between two reservoirs at temperatures 500 K and 300 K. If the engine absorbs 600 J of heat from the hot reservoir, calculate the work done by the engine and the heat rejected to the cold reservoir.
Fluid Mechanics:
Water flows through a pipe with a diameter of 0.1 m at a velocity of 2 m/s. Calculate the Reynolds number and determine whether the flow is laminar or turbulent. (Assume the kinematic viscosity of water is 1.0 x 10^-6 m^2/s)
Heat Transfer:
A flat plate of width 1 m and length 2 m is maintained at a temperature of 100C and is exposed to air at 25C with a heat transfer coefficient of 50 W/m^2K. Calculate the rate of heat transfer from the plate to the air.
Dynamics:
A 10 kg mass is attached to a spring with a spring constant of 200 N/m. If the mass is displaced by 0.1 m and released, calculate the natural frequency of oscillation.
Machine Design:
A helical compression spring made of steel has a wire diameter of 5 mm, a mean coil diameter of 30 mm, and 10 active coils. Calculate the spring rate (stiffness) and the maximum load the spring can carry without yielding (Assume the shear modulus G =80 GPa and the yield strength in shear is 400 MPa).
Manufacturing Processes:
Calculate the material removal rate (MRR) for a turning operation where a cylindrical workpiece of diameter 50 mm is reduced to 45 mm at a cutting speed of 100 m/min and feed rate of 0.2 mm/rev.
Control Systems:
A unity feedback control system has an open-loop transfer function G(s)=10/(s(s+2)). Determine the system's steady-state error for a unit step input.
Mechanics of Materials:
A beam of length 4 m is simply supported at both ends and carries a uniformly distributed load of 5 kN/m. Calculate the maximum bending moment in the beam.
Vibration Analysis:
A single-degree-of-freedom system with a mass of 5 kg and a damping coefficient of 10 Ns/m has a natural frequency of 2 Hz. Calculate the damping ratio and determine whether the system is underdamped, overdamped,
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