Questions
Report Paper ( 1000 words) Topic is Shakers for Aircraft Suspension Durability Testing All material must...

Report Paper ( 1000 words) Topic is Shakers for Aircraft Suspension Durability Testing

All material must be referenced correctly. Reference could be from Journals, Articles, Books. Please include at least 1 or 2 reference.

In: Mechanical Engineering

hi please provide the graph and calculation. design an appropriate plot, show that it's not practical...

hi please provide the graph and calculation. design an appropriate plot, show that it's not practical to have more than two reheat stages (take at least three reheat pressures between 2 to 12 MPa).reheated Rankine power cycle uses water as working fluid. The first stage turbine 's inlet conditions are 14MPa, and 600oC.All turbines are known as isentropic 85 percent efficiency,the pump is assumed as an isentropic pump.If the maximum temperature is maintained at 600oC and the condenser pressure is 6 kPa

In: Mechanical Engineering

1. Itemize 6 ways in which defect control can be used to our advantage in engineering...

1. Itemize 6 ways in which defect control can be used to our advantage in engineering designs. Include specific examples.

In: Mechanical Engineering

Question 1) In an air standard diesel cycle, the conditions of the air at the start...

Question 1) In an air standard diesel cycle, the conditions of the air at the start of the compression stroke are 2 bar and 30℃. The pressure rises to 30bar after compression, and through combustion, 1200 kJ of energy is added per kg air. Calculate

  1. Compression ratio
  2. Cutoff ratio
  3. Mean effective pressure
  4. Temperature and pressure at the end of each process
  5. work done per kg air
  6. Thermal efficiency of the cycle

In: Mechanical Engineering

Which of the following modifications would REDUCE the likelihood of cavitation in a pump and piping...

Which of the following modifications would REDUCE the likelihood of cavitation in a pump and piping system?

a) raising the pump

b) increasing the flow rate

c) lowering the position of the pump in the system

d) raising the temperature of the pumped fluid

e) lowering the inlet piping to the pump, while keeping the pump in the same position

In: Mechanical Engineering

TRUE OR FALSE? In pipe flow, if the Reynolds number is very large, then the friction...

TRUE OR FALSE? In pipe flow, if the Reynolds number is very large, then the friction factor depends only on the non dimensional pipe roughness.

In: Mechanical Engineering

The drag force on a large ball that weighs 200 g in free flight is given...

The drag force on a large ball that weighs 200 g in free flight is given by FD = 2*10 V , where FD is in Newtons and V is in meters per second. If the ball is dropped from rest 300 m above the ground, determine the speed at which it hits the ground. What percentage of the terminal speed is the result?

In: Mechanical Engineering

An ideal vapor-compression refrigeration cycle is modified to include a counterflow heat exchanger, as shown in...

An ideal vapor-compression refrigeration cycle is modified to include a counterflow heat exchanger, as shown in the figure below. Ammonia leaves the evaporator as saturated vapor at 1 bar and is heated at constant pressure to 5°C before entering the compressor. Following isentropic compression to 18 bar, the refrigerant passes through the condenser, exiting at 40°C, 18 bar. The liquid then passes through the heat exchanger, entering the expansion valve at 18 bar.



If the mass flow rate of refrigerant is 16 kg/min, determine:

(a) the refrigeration capacity, in tons of refrigeration.

(b) the compressor power input, in kW.

(c) the coefficient of performance.

(d) the rate of entropy production in the compressor, in kW/K.

(e) the rate of exergy destruction in the compressor, in kW.

Let T0 = 20°C

In: Mechanical Engineering

A vapor-compression refrigeration system for a household refrigerator has a refrigerating capacity of 1650 Btu/h. Refrigerant...

A vapor-compression refrigeration system for a household refrigerator has a refrigerating capacity of 1650 Btu/h. Refrigerant enters the evaporator at -15°F and exits at 20°F. The isentropic compressor efficiency is 75%. The refrigerant condenses at 125°F and exits the condenser subcooled at 100°F. There are no significant pressure drops in the flows through the evaporator and condenser.


For Refrigerant 134a as the working fluid, determine:

(a) the evaporator and condenser pressures, each in lbf/in.2

(b) the mass flow rate of refrigerant, in lb/min.

(c) the compressor power input, in horsepower.

(d) the coefficient of performance.

In: Mechanical Engineering

The seniors at Weseltown High School are voting on where to go for their senior trip....

The seniors at Weseltown High School are voting on where to go for their senior trip. They are deciding on Angel Falls(A), Bend Canyon(B), Cedar Lake(C) or Danger Gap(D). The results of the preferences are:

DABC = 120

ACBD = 100

BCAD = 90

CBDA = 80

CBAD = 45

a. Who is the Condorcet candidate?

b. Is there a majority winner? If not, is there a plurality winner? Does this violate the Condorcet criterion?

c. Who wins the Borda count? Does this violate the Condorcet criterion?

d. Who wins using the Hare method? Does this violate the Condorcet criterion?

e. Who wins using the pairwise comparison method? Does this violate the Condorcet criterion?

In: Mechanical Engineering

develop a programming code in FORTRAN 77 software for solar assisted air source water heat pump...

develop a programming code in FORTRAN 77 software for solar assisted air source water heat pump inline connected with bry air dehumidifier and pulse tube cryocooler

In: Mechanical Engineering

value of y is _____4_______. Consider an ideal vapor-compression refrigeration cycle using Freon 410A (see ....

value of y is _____4_______.

Consider an ideal vapor-compression refrigeration cycle using Freon 410A (see . https://www.freon.com/en-/media/files/freon/freon-410a-si-thermodynamic-properties.pdf) The pressure in the evaporator is 10y kPa (That is, if y = 3 the evaporator pressure is 30 kPa). and the temperature at the exit of the condenser is 40oC. The mass flow in the system is (0.05 + y/200) kg/s.   (That is, if y =3, then the mass flow is 0.0.065 kg/s).

  1. Find the enthalpy at the entrance to the compressor.                    h = __________ kJ/kg (+ 3 kJ/kg)

  1. Find the enthalpy at the exit of the compressor.                              h = __________ kJ/kg (+ 5kJ/kg)

  1. Find the enthalpy at the exit of the condenser.                                h = __________ kJ/kg (+ 3kJ/kg)

  1. Find the rate of heat transfer in the evaporator:                              = __________ W (+ 300W)

In: Mechanical Engineering

21. Make a comparison of welding, adhesive joining, and mechanical fastening in regard to bond strength...

21. Make a comparison of welding, adhesive joining, and mechanical fastening in regard to bond strength and service temperature limitations.
22. List four basic types of fusion welds, and draw sketches.
23. Lis any three defects associated with fusion welding, and describe them briefly.
24. Draw a sketch of weld section, and label three zones; namely: base metal, weld metal and heat affected zone.
25. Define power density and include its units, and describe how power density affects size of heat affected zone?
26. Sketch Fe-Fe3C equilibrium phase diagram, and identify the following:
a. Alpha region
b. Gamma region
c. Delta region
d. Eutectic point
e. Eutectoid point
f. Lower critical temperature line, A1

27. Identify the methods that can be employed to minimize the distortion in the welded workpieces.
28. Identify one high power density and one low power density welding process.
29. Sketch a fillet weld, and identify weld size, throat size and convexity or concavity?
30. Two AISI1020 Steel plates 6 mm thick each are to be welded through a T-Joint double fillet weld using
SMAW process. Assume that each leg of the fillet weld is equal to 4 mm, and the weld has a flat face.
Perform the tasks:
a. How much metal in grams will be required to make the welds? Density of steel weld metal is 7.85
g/cm3.
b. How many electrodes will be required to make the weld if diameter of the electrode is 4 mm, and
length is 350 mm? Assume that electrode metal deposition efficiency is 65%.

In: Mechanical Engineering

From the given shearing stress and normal stress as below: σx = -5MPa σy = 10MPa...

From the given shearing stress and normal stress as below:

σx = -5MPa
σy = 10MPa
τxy = -5MPa

Sketch the free body diagram of the stress element.
Determine and sketch the free body diagram for the principal stress using transformation equations.

Determine and sketch the free body diagram for the maximum shearing stress, correspond with the normal stress using the general transformation equations.

In: Mechanical Engineering

explaining heat transfer fets; for cartesian coordinates a) in continuous regime b) in a continuous regime...

explaining heat transfer fets; for cartesian coordinates
a) in continuous regime
b) in a continuous regime and in the absence of heat production
c) in the continuous regime, in the absence of heat production and one-dimensional (in the x direction)
Obtain the general heat equation.

In: Mechanical Engineering