Homework Answers
Both the contours with 2 m interval and profile along X-X is shown below.
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4). (10 points): Draw and label contours with an interval of 2 m (with visual inspection)...
please can you draw me this exercise of topography Locate the lowest closed concentric contours and...
please can you draw me this exercise of topography
Locate the lowest closed concentric contours and writethe label iu "depression." Be sure to add tick marks on the do label depression contours Locate the highest closed concentric contours and write i rs and write in the Step 4: Once you've completed this practice exercise, check your answer with the in the back of this lab manual or in the online supplement. Once you're results, you are ready to complete the...
part (g) a) Find the reactions(10 points) b) Draw the shear diagram (10 points) c) Draw the moment diagram(15 points...
part (g)
a) Find the reactions(10 points) b) Draw the shear diagram (10 points) c) Draw the moment diagram(15 points) d) Calculate the moment of Inertia of the cross-section about its x-x neutral axis using the parallel axis theorem and compare this to the Onesteel value. Do the two values agree? (20 points) e) Determine the maximum tensile bending stress and indicate its location in the section (15 points) f) Calculate the maximum shearing stresses in the cross-section and draw...
CONTOURING Figure 1 is a map of surveyed elevations. The dots represent data points of elevation...
CONTOURING Figure 1 is a map of surveyed elevations. The dots represent data points of elevation above sea level, in feet. 6070 6056 6071 1. Draw the topographic contours, using a contour interval of 20 ft. You may choose to mark everv datum between two contours with the same-symbol or color and then group them together as you draw your contours. It is also recommended to use a pencil to draw in contours as even the best of us can...
PROBLEM 2 25 Points 60 kN 45 kN/m X A B C D 2.5 m 2.5...
PROBLEM 2 25 Points 60 kN 45 kN/m X A B C D 2.5 m 2.5 m 4 m Draw the shear-force and bending-moment for the beam shown in figure. You can use any method but you need to show your calculations. Label all significant points on each diagram and identify the maximum moment along with its location. Clearly differentiate straight-line and curved portions of the diagrams. Points 25 Distribution Drawing of SF and BM: 10 Calculation of SF and...
2. (10 points) Consider the beam shown below: (a) draw the complete shear diagram with corresponding...
2. (10 points) Consider the beam shown below: (a) draw the complete shear diagram with corresponding labels and units (b) draw the complete moment diagram with corresponding labels and units (c) find the magnitude of maximum compressive normal stress (d) find the magnitude of the maximum tensile normal stress Give the value and location for all quantities along the beam and on the cross section. NOTE: The moment of inertia is I, = 99.75 in* and the centroid is given....
2. (10 points) Consider the beam shown below: (a) draw the complete shear diagram with corresponding...
2. (10 points) Consider the beam shown below: (a) draw the complete shear diagram with corresponding labels and units (b) draw the complete moment diagram with corresponding labels and units (c) find the magnitude of maximum compressive normal stress (d) find the magnitude of the maximum tensile normal stress Give the value and location for all quantities along the beam and on the cross section. NOTE: The moment of inertia is I, = 99.75 in* and the centroid is given....
2. (10 points) Consider the beam shown below: (a) draw the complete shear diagram with corresponding...
2. (10 points) Consider the beam shown below: (a) draw the complete shear diagram with corresponding labels and units (b) draw the complete moment diagram with corresponding labels and units (c) find the magnitude of maximum compressive normal stress (d) find the magnitude of the maximum tensile normal stress Give the value and location for all quantities along the beam and on the cross section. NOTE: The moment of inertia is 12 = 99.75 in4 and the centroid is given....
Part 4: Viscous Flow Concepts (10 points,5 each) The flow through a duct is fully-developed, with...
Part 4: Viscous Flow Concepts (10 points,5 each) The flow through a duct is fully-developed, with a velocity profile as shown in the figure. has a rectangular cross section, and the velocity profile is uniform in the z-direction (it does not change going into the page) If we wish to determine the mass flow rate through the duct, which differential area would we use? Why? If we wish to determine the forced caused by shear stress on the bottom wall,...
Blem 2. (70 points) 1. For the beam shown in Figure (a): a) b) draw the shear force and bending m...
blem 2. (70 points) 1. For the beam shown in Figure (a): a) b) draw the shear force and bending moment diagrams. (30 points) Select the most economical W shape for the beam with an allowable bending stress of 30 ksi. (10 points) determine the maximum tensile and compressive bending stresses at any location along the beam if the section shown in Figure (b) is used instead of the W shape section selectedin Part b. Would the beam be safe...
roblem 3 40 points: 1.2 m A X Figure S: It's cross section Figure 4: A thick walled pressure vessel in figure 4 is loaded by an internal pressure Pin. a torque T 10 kN.m rated in figure 5 wit...
roblem 3 40 points: 1.2 m A X Figure S: It's cross section Figure 4: A thick walled pressure vessel in figure 4 is loaded by an internal pressure Pin. a torque T 10 kN.m rated in figure 5 with a 200 mm and b - 400 and a vertical force P50 kN. Its cross section is illust mm. Using the Von Mises in yiel the pressure vessel is made of 3 ses failure criterion in yielding, find the maximum...
please can you draw me this exercise of topography
Locate the lowest closed concentric contours and writethe label iu "depression." Be sure to add tick marks on the do label depression contours Locate the highest closed concentric contours and write i rs and write in the Step 4: Once you've completed this practice exercise, check your answer with the in the back of this lab manual or in the online supplement. Once you're results, you are ready to complete the...
part (g)
a) Find the reactions(10 points) b) Draw the shear diagram (10 points) c) Draw the moment diagram(15 points) d) Calculate the moment of Inertia of the cross-section about its x-x neutral axis using the parallel axis theorem and compare this to the Onesteel value. Do the two values agree? (20 points) e) Determine the maximum tensile bending stress and indicate its location in the section (15 points) f) Calculate the maximum shearing stresses in the cross-section and draw...
CONTOURING Figure 1 is a map of surveyed elevations. The dots represent data points of elevation above sea level, in feet. 6070 6056 6071 1. Draw the topographic contours, using a contour interval of 20 ft. You may choose to mark everv datum between two contours with the same-symbol or color and then group them together as you draw your contours. It is also recommended to use a pencil to draw in contours as even the best of us can...
PROBLEM 2 25 Points 60 kN 45 kN/m X A B C D 2.5 m 2.5 m 4 m Draw the shear-force and bending-moment for the beam shown in figure. You can use any method but you need to show your calculations. Label all significant points on each diagram and identify the maximum moment along with its location. Clearly differentiate straight-line and curved portions of the diagrams. Points 25 Distribution Drawing of SF and BM: 10 Calculation of SF and...
2. (10 points) Consider the beam shown below: (a) draw the complete shear diagram with corresponding labels and units (b) draw the complete moment diagram with corresponding labels and units (c) find the magnitude of maximum compressive normal stress (d) find the magnitude of the maximum tensile normal stress Give the value and location for all quantities along the beam and on the cross section. NOTE: The moment of inertia is I, = 99.75 in* and the centroid is given....
2. (10 points) Consider the beam shown below: (a) draw the complete shear diagram with corresponding labels and units (b) draw the complete moment diagram with corresponding labels and units (c) find the magnitude of maximum compressive normal stress (d) find the magnitude of the maximum tensile normal stress Give the value and location for all quantities along the beam and on the cross section. NOTE: The moment of inertia is I, = 99.75 in* and the centroid is given....
2. (10 points) Consider the beam shown below: (a) draw the complete shear diagram with corresponding labels and units (b) draw the complete moment diagram with corresponding labels and units (c) find the magnitude of maximum compressive normal stress (d) find the magnitude of the maximum tensile normal stress Give the value and location for all quantities along the beam and on the cross section. NOTE: The moment of inertia is 12 = 99.75 in4 and the centroid is given....
Part 4: Viscous Flow Concepts (10 points,5 each) The flow through a duct is fully-developed, with a velocity profile as shown in the figure. has a rectangular cross section, and the velocity profile is uniform in the z-direction (it does not change going into the page) If we wish to determine the mass flow rate through the duct, which differential area would we use? Why? If we wish to determine the forced caused by shear stress on the bottom wall,...
blem 2. (70 points) 1. For the beam shown in Figure (a): a) b) draw the shear force and bending moment diagrams. (30 points) Select the most economical W shape for the beam with an allowable bending stress of 30 ksi. (10 points) determine the maximum tensile and compressive bending stresses at any location along the beam if the section shown in Figure (b) is used instead of the W shape section selectedin Part b. Would the beam be safe...
roblem 3 40 points: 1.2 m A X Figure S: It's cross section Figure 4: A thick walled pressure vessel in figure 4 is loaded by an internal pressure Pin. a torque T 10 kN.m rated in figure 5 with a 200 mm and b - 400 and a vertical force P50 kN. Its cross section is illust mm. Using the Von Mises in yiel the pressure vessel is made of 3 ses failure criterion in yielding, find the maximum...
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