Stainless Steel spoons are tested after manufacture with each test taking 10 minutes. If the plant makes 200,000 units a day and the quality Page 117-Sep-2018 assurance technologist recommends testing 1% of them to failure, is this sampling plan sensible? What would you recommend? Why?

Draw block diagram of a sun tracking system for a solar power system. Also mention the component clearly.

Note: give a small description of its working.

Pressurized water (pin= 10 bar, Tin= 110°C) enters the bottom of an L= 10-m-long vertical tube of diameter D= 88 mm at a mass flow rate of m˙⁢= 1 kg/s. The tube is located inside a combustion chamber, resulting in heat transfer to the tube. Superheated steam exits the top of the tube at Pout= 7 bar, Tout= 600°C. Determine the change in the rate at which the following quantities enter and exit the tube: (1) the combined thermal and flow work, (2) the mechanical energy, and (3) the total energy of the water. Also, (4) determine the heat transfer rate, q.
Hint: Relevant properties may be obtained from a thermodynamics text.

ANSWERE ALL BELOW Qs PLEASE!!

a) What is the outlet specific volume, in m³/kg?

b) What is the outlet velocity, in m/s?

c) What is the change in specific enthalpy from inlet to outlet, in kJ/kg?

d) Solve for the rate of change in the combined thermal and flow work energy from inlet to outlet, in MW.

e) Solve for the rate of change in mechanical energy from inlet to outlet, in MW.

f) What is the total heat transfer rate from the pipe, in MW?

What factors, not including thermal mismatch to the substrate, contribute to a change in gauge response as the temperature of the gauge changes?

How do the required CL and AOA for a Piper M350 at 4,000 lbs change with changes in airspeed? (Provide specific examples)

What happens if the required CL is larger than CL_max of your airfoil, and what speed regime is usually associated with that condition?

The spring-loaded piston–cylinder device shown in the figure is filled with 0.55 kg of water vapor that is initially at 4 MPa and 400°C. Initially, the spring exerts no force against the piston. The spring constant in the spring force relation F = kx is k = 0.9 kN/cm and the piston diameter is D = 20 cm. The water now undergoes a process until its volume is one-half of the original volume. Calculate the final temperature and the specific enthalpy of the water. Use data from the steam tables

For liquids, the viscosity decreases as the temperature increases. For gases, the viscosity increases as the temperature increases. Your objective is to provide an explanation for these trends. You may do internet research, but your response must be in your own words and references provided. Your response must be typed and grammatically correct.

If the cells operate with 18% efficiency, and there is no mismatch loss among the cells, calculate the overall module efficiency if the round cells are used. Assume a PV Module is to have dimensions of 37.5 X 63.2 in. Also assume that 8-in. round cells are available

A local firm manufactures children's toys. The project demand over the next four months for one particular model of toy robot is

Assume that a normal workday is 8 hours. Hiring cost are $350 per worker and firing cost (including severance) are 850 per worker. Holding cost are $4 per aggergate unit held per month. Assume that it requires an average of 1 hour and 40 minutes for one worker to assemble one toy. Shortages are not permitted. Assime that the ending inventory for June was 600 of these toys and the mangager wishes to have at least 800 units on hand at the end of October. Assume that the current workforce level is 35 workers. Find the optimal plan by formulating as a linear program.  

A stainless-steel rod (AISI 304) of length ? = 100[??] and triangular cross-section is attached between two isothermal heat sinks at ?0 = 50℃. The rod perimeter is ? = 5[??]. When an unknown fluid at ?0 = 23℃ is in cross-flow over the rod, the temperature of the rod is midway between its two ends is measured to be ???? = 25℃. Determine the value of the convection heat transfer coefficient and the rate of heat loss from the rod.

1.       What problems are associated with oxygen or other gases that are dissolved in molten steel?

2.       What is considered a low-carbon steel? Medium-carbon? High-carbon?

can you please type the answer. thanks

Examine the following abstract:

“In this study, we investigate the behavior of new nano ZrO2 and Al2O3-13 wt.% TiO2 thermal sprayed coatings on commercially pure (cp)-Ti (grade 4) and titanium alloy substrates. Friction and wear tests against Al2O3 balls showed that the wear resistance of Al2O3-13 wt.% TiO2 is better than that ZrO2 coating. Both plasma sprayings have similar abrasive wear behavior; however, the average friction coefficient is higher for alumina-titania coating. Electrochemical tests, open circuit potential monitoring and potentiodynamic polarization, were performed in simulated body conditions (Hank's solution, 37 degrees C). Results showed that corrosion resistance was appreciably higher for alumina-titania coating.” INTERNATIONAL JOURNAL OF REFRACTORY METALS & HARD MATERIALS 28(1):115-120 Jan 2010

a) What is the purpose (purposes) of these nano ZrO2 and Al2O3-13 wt% TiO2 coatings on CP Ti and Ti alloys?

b) If these materials were used as a femoral stem, would the results of wear tests be important? What if these were coating for the femoral head?

c) What would be the ideal, long-term outcome of this coated Ti when used as a femoral stem? Please describe the key features of the implant that are critical to its success. (Be sure your answer includes responses to the following questions: What is its physical shape, does it have porosity or roughness, how do you intend the tissue around the implant to interact with the implant?)

What caused the Open Paradigm? Give examples

just need to find out how to find the new yield point of a metal after it has been stretched ?

give the formula and explain it please