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3. The inclined-tube manometer shown has D- 96 mm and d- 8 mm. Determine the angle,...
The inclined-tube manometer shown has D = 110 mm and d = 8.0 mm. (a) Determine...
The inclined-tube manometer shown has D = 110 mm and d = 8.0 mm. (a) Determine the angle, θ, required to provide a 5 : 1 increase in liquid deflection, L, compared with the total deflection in a regular U-tube manometer. (b) Evaluate the sensitivity of this inclined-tube manometer. Assume that manometer is filled with Meriam red oil. Use Table A.1
(Manometer) Determine the angle of the inclined tube shown in figure below if the pressure at...
(Manometer) Determine the angle of the inclined tube shown in figure below if the pressure at A is 1 psi greater than that at B. SG=0.77 SG = 1.0 10.0 ft 24.2854 deg
A steel tube with a circular cross section has an outside diameter of 300 mm and...
A steel tube with a circular cross section has an outside diameter of 300 mm and wall thickness of 2 mm. The cylinder is twisted along its length of 2 m with a torque of 50 kN · m. (a) Determine the maximum torsional shear stress using Equation Theta= T*L/JG (b) Determine the maximum torsional shear stress using the closed thin-walled tube method. Compare this result to the result of part (a). (c) Assuming the tube does not yield, determine...
A heat exchanger has Di 1 = 20 mm, Di2 = 33 mm, D = 64...
A heat exchanger has Di 1 = 20 mm, Di2 = 33 mm, D = 64 mm, and L = 2.2 m. The walls and the 8 struts of a heat exchanger are made of carbon steel (k=50 W/m K). Liquid water at 300 K (u = 855x10 6 Ns/m2) enters the inner tube with a flow rate of 0.019 kg/s. Calculate the heat transfer coefficient for the inner tube. 1-1 = 3 mm D. Dia Dia Water Gas
4 A U-Tube manometer is connected to a closed tank, shown below, containing oil a density...
4 A U-Tube manometer is connected to a closed tank, shown below, containing oil a density of 800 kg/m², the pressure of the air above the oil being 6000 Pa, if the pressure at point A is 20 kPa and the manometer fluid has a relative density of 5, Assume x=0.6m. determine the following i. The depth of oil, Z ii. The differential reading, Z2 on the manometer. (5marks) Z2 Z A OIL 5 Explain about the steady and unsteady...
2) For the simply supported beam shown in figure 2 8 marks 4 marks Determine the maximum deflecti...
2) For the simply supported beam shown in figure 2 8 marks 4 marks Determine the maximum deflection of the beam Determine the angle the beam makes to the horizontal at support R1 Explain how you would answer questions 2) a) and b) if a coupling moment of +30 kNm was added at R1. No calculations are required, but you should explain clearly how this would effect the working and also provide an estimation of whether you think the maximum...
An alumninum (E = 68.9 GPa) cylindrical tube has an outer diameter of 200 mm, a wall thickness of...
An alumninum (E = 68.9 GPa) cylindrical tube has an outer diameter of 200 mm, a wall thickness of 7.5 mm, and an internal pressure of 5 MPa. It is subjected to a force with the axial and transverse components shown acting at the centroid of the free end of the tube 1. Verify that the tube meets the thin-wall criterion 2. Draw the left half of the tube, and show the equivalent force-couple system acting at the centroid of...
Exercise 6.1.14 The L-shaped steel plate shown below is d = 8 mm thick (i.e., the...
Exercise 6.1.14 The L-shaped steel plate shown below is d = 8 mm thick (i.e., the member extends from Z = 0 to Z = -8 into the page). Determine a. its mass m b. the location of its center of mass (XM, YM, ZM). Assume: H = 730 mm, h = 70 mm, L = 460 mm, l = 75 mm. Material is homogeneous (Pstoel = 7830 kg/m3). H L a. M kg b. XM mm a. m= kg...
The L-shaped steel plate shown below is d = 8 mm thick (i.e., the member extends...
The L-shaped steel plate shown below is d = 8 mm thick (i.e., the member extends from z = 0 to z = -8 into the page). Determine a. its mass m b. the location of its center of mass (XM.Yu.Zy). Assume: H = 810 mm, h = 120 mm, L = 420 mm, 1 = 65 mm. Material is homogeneous (Pested = 7830 kg/m3). H a. M 5.93 kg b. Xy = 159.8 mm Y = 1215.30 mm ZM...
A block of weight w sits on a plane inclined at an angle θ as shown....
A block of weight w sits on a plane inclined at an angle θ as
shown. (Figure 1) The coefficient of kinetic friction between the
plane and the block is μ.
A force F⃗ F→F_vec is applied to push the block up the incline
at constant speed.
Part D
What is the change in potential energy of the block, ΔUΔUDeltaU,
as it moves a distance LLL down the incline?
Express your answer in terms of some or all of the...
The inclined-tube manometer shown has D = 110 mm and d = 8.0 mm. (a) Determine the angle, θ, required to provide a 5 : 1 increase in liquid deflection, L, compared with the total deflection in a regular U-tube manometer. (b) Evaluate the sensitivity of this inclined-tube manometer. Assume that manometer is filled with Meriam red oil. Use Table A.1
(Manometer) Determine the angle of the inclined tube shown in figure below if the pressure at A is 1 psi greater than that at B. SG=0.77 SG = 1.0 10.0 ft 24.2854 deg
A heat exchanger has Di 1 = 20 mm, Di2 = 33 mm, D = 64 mm, and L = 2.2 m. The walls and the 8 struts of a heat exchanger are made of carbon steel (k=50 W/m K). Liquid water at 300 K (u = 855x10 6 Ns/m2) enters the inner tube with a flow rate of 0.019 kg/s. Calculate the heat transfer coefficient for the inner tube. 1-1 = 3 mm D. Dia Dia Water Gas
4 A U-Tube manometer is connected to a closed tank, shown below, containing oil a density of 800 kg/m², the pressure of the air above the oil being 6000 Pa, if the pressure at point A is 20 kPa and the manometer fluid has a relative density of 5, Assume x=0.6m. determine the following i. The depth of oil, Z ii. The differential reading, Z2 on the manometer. (5marks) Z2 Z A OIL 5 Explain about the steady and unsteady...
2) For the simply supported beam shown in figure 2 8 marks 4 marks Determine the maximum deflection of the beam Determine the angle the beam makes to the horizontal at support R1 Explain how you would answer questions 2) a) and b) if a coupling moment of +30 kNm was added at R1. No calculations are required, but you should explain clearly how this would effect the working and also provide an estimation of whether you think the maximum...
An alumninum (E = 68.9 GPa) cylindrical tube has an outer diameter of 200 mm, a wall thickness of 7.5 mm, and an internal pressure of 5 MPa. It is subjected to a force with the axial and transverse components shown acting at the centroid of the free end of the tube 1. Verify that the tube meets the thin-wall criterion 2. Draw the left half of the tube, and show the equivalent force-couple system acting at the centroid of...
Exercise 6.1.14 The L-shaped steel plate shown below is d = 8 mm thick (i.e., the member extends from Z = 0 to Z = -8 into the page). Determine a. its mass m b. the location of its center of mass (XM, YM, ZM). Assume: H = 730 mm, h = 70 mm, L = 460 mm, l = 75 mm. Material is homogeneous (Pstoel = 7830 kg/m3). H L a. M kg b. XM mm a. m= kg...
The L-shaped steel plate shown below is d = 8 mm thick (i.e., the member extends from z = 0 to z = -8 into the page). Determine a. its mass m b. the location of its center of mass (XM.Yu.Zy). Assume: H = 810 mm, h = 120 mm, L = 420 mm, 1 = 65 mm. Material is homogeneous (Pested = 7830 kg/m3). H a. M 5.93 kg b. Xy = 159.8 mm Y = 1215.30 mm ZM...
A block of weight w sits on a plane inclined at an angle θ as
shown. (Figure 1) The coefficient of kinetic friction between the
plane and the block is μ.
A force F⃗ F→F_vec is applied to push the block up the incline
at constant speed.
Part D
What is the change in potential energy of the block, ΔUΔUDeltaU,
as it moves a distance LLL down the incline?
Express your answer in terms of some or all of the...
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