REFRIGERATION+AIR COND.TECH.-W/2 ACCESS
8th Edition
ISBN: 9781337370042
Author: TOMCZYK
Publisher: CENGAGE L
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Chapter 13, Problem 7RQ
What is the difference between a bellows and a diaphragm?
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Show all work. Indicate the origin that is used for each plane.
Identify the Miller indices for the following planes.
N
23
1
A)
X
B)
y
the following table gives weight gain time data for the oxidation of some metal at an elevated temperature
W(mg/cm2). Time (min)
4.66 20
11.7 50
41.1 175
a) determin whether the oxidation kinetics obey a linear, parabolic, or logarithmic rate expression.
b) Now compute W after a time of 1000 min
A cylindrical specimen of aluminum is pulled in tension. Use the stress v. strain plot below
for this specimen of Al to answer parts (a) - (f). Hint: Each strain increment is 0.004.
Be sure to include your engineering problem solving method per the class rubric.
400
350
300
250
Stress
(MPa) 200
150
100
50
Aluminum (Stress v. Strain)
0
0
0.02
0.04
0.06
0.08
Strain
0.1
0.12
0.14
0.16
a. Compute the modulus of elasticity.
b. Determine the yield strength at a strain offset of 0.002.
c. Determine the tensile strength of this metal.
d. Compute the ductility in percent elongation.
e. Compute the modulus of resilience.
f. Determine the elastic strain recovery for an unloaded stress of 340 MPa.
Chapter 13 Solutions
REFRIGERATION+AIR COND.TECH.-W/2 ACCESS
Ch. 13 - What is the device that consists of two unlike...Ch. 13 - What are some application of the bimetal strip?Ch. 13 - How can the bimetal strip be extended to have more...Ch. 13 - What two metals can be used in the bimetal device...Ch. 13 - A thin, flexible metal disc with a large surface...Ch. 13 - Prob. 6RQCh. 13 - What is the difference between a bellows and a...Ch. 13 - Which type of fluid is normally found in a...Ch. 13 - Which of the following is a device consisting of...Ch. 13 - How can a thermocouple be used to verify that a...
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- Consider a single crystal of silver oriented such that a tensile stress is applied along a [112] direction. If slip occurs on a (011) plane and in a [111] direction and is initiated at an applied tensile stress of 15.9 MPa, compute the critical resolved shear stress.arrow_forwardA hypothetical component must not fail when a tensile stress of 15.25 MPa is applied. Determine the maximum allowable internal crack length if the surface energy of the component is 1.50 J/m2. Assume a modulus of elasticity of 350 GPa.arrow_forwardFresh air at 21.1 C in which partial pressure of water vapor is 0.018 atmosphere is blown at the rate of 214 m3/h first through a preheater and then adiabatically saturated in spray chambers to 100% saturation and again reheated this reheated air has humidity of 0.024 kg water vapor per kg dry air. It is assumed that the fresh air and the air leaving the re-heater have the same percentage humidity. Determine:- a- The temperature of preheater, spray-chamber and re-heater b- Heat requirement for preheating and re-heating 11:39 مarrow_forward
- Example(3): 0.15 kg/s steam at atmospheric pressure and superheated to 400 K is bled into an air stream at 320 K and 20 per cent relative humidity. What is the temperature, enthalpy, and relative humidity of the mixed stream if the air is flowing at 5 kg/ s? How much steam would be required to provide an exit temperature of 330 K and what would be the humidity of this mixture? 11:39 مarrow_forwardThe answer to the problem is 31.3rad/s. Please show me how to get the final answerarrow_forwardThe answer to the problem is 1.00 m/s^2. Please show me how to get the final answerarrow_forward
- The answer to the problem is 0.30. Please show me how to get the final answerarrow_forwardThe answer to the problem is 1.96 m/s. Please show me how to get the final answerarrow_forwardA cylindrical tank of diameter D is currently filled with water to a height h, as shown in the figure to the right. Water enters the tank through the pipe at (1) with a cross-sectional area A₁ and a uniform velocity V₁. The height of water in the tank is increasing at a constant rate of 5 mm/s. Given the parameters below, find the volumetric flow rate in the pipe at (2), V2, in cm³/s, and classify it as an inflow or outflow. D = 20 cm h = 0.5 m A₁ = 1 cm² V₁ = 0.1 m/s h 1 V₁ D Pwater = 1,000 kg/m³ V2 2arrow_forward
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