Q.2: A rectang steel. The bar hole drilled th axial loading Using ASTM m estimate the cycles. Taken
Q: For the PI Inaccessible problem: Sta. X = 70+00.00, XY =800.00 ft, angle x = 35°00'00", angle y =…
A: Sta. X = 70+00.00 XY = 800.00 ft Angle X = 35°00'00'' Angle Y = 30°00'00'' The radius for the simple…
Q: Draw the V&M diagrams. Is this beam at static equilibrium? Calculate the stress due to bending at…
A:
Q: Do Q2: A municipal wastewater treatment plant discharges secondary condition occurs in the summer…
A: Wastewater characteristics: Q1=10000 m3/d=0.116 m3/sC1=30 mg/lDO1=1.5 mg/lT1=25°C Stream…
Q: Rv is 800 ft. SSD is 360 ft. Central angle of the curve is 50 degrees. Find side clearance distance…
A: Minimum radius, Rv=800 ft Sight stopping distance, SSD=360 ft Central angle of the curve, ∆=50°
Q: A flange bolt coupling consists of 8 42 mm diameter steel bolts spaced around a bolt circle 192 mm…
A: Number of bolt (n) = 8 Diameter of bolt (d) = 42 mm Diameter of bolt circle (D) = 192mm Allowable…
Q: 2. A concrete column and cantilever beam as shown P lm The known loads: = 600 kN Pp PL = 400 KN fc'…
A: Given; PD = 600 KN PL = 400 KN fc' = 30 Mpa fy = 420 Mpa
Q: An axial centric force of magnitude P = 450 kN is applied to the composite block shown by means of a…
A:
Q: An eight-lane freeway section is designed to have a lane width of 12 ft, right-side shoulder width…
A: Given; Lane width = 12 ft. Right-side shoulder width = 3 ft. and 3 ramps over a 2- mile- long…
Q: A two lane single carriage-way is to be designed for a design life period of 15 years. Total two way…
A:
Q: The sequent depths in a hydraulic jump formed in a 4.0m wide rectangular channel are 0.3 m and 1.2…
A: Given- Sequent depths- y1=0.3 m,y2=1.2 m, Width of channel b = 4 m, It is needed to find the…
Q: Make an outline/ flowchart for the investigation process for singly-reinforced concrete beam.…
A: Here is an outline/flowchart for the investigation process of a singly-reinforced concrete beam:…
Q: Given the following information for a compound curve that Leads with short cur o | = 98°48'13" ols =…
A: I=98°48'13''Is=32°15'53''Ts=2110.17 feetDL=1°45' To find: Length of the long curve in feet
Q: Find (D.O) and the (Deficit (D)) for the stream (B), If: Stream T (C) Deficit (D) CI A C Q (m³/s)…
A: Given data Stream Q(m3/sec) T(°c) Deficit (D) (mg/l) cl(mg/l) A 3.7 21 4.49 0 C 6.2 19 3.58…
Q: 01. For the table below. Find the equivalen ade load For sandard ale load is 90 kN. Axle load KN.…
A: Axle load (kN) Tensile strain at the bottom of the binder course (mm) 70 3 90 9 130 15 150…
Q: A steel frame is shown in the given figure. A L B L O L/2 ALERI C El Constant D If joint O of the…
A:
Q: Q2 (b) Rankine's lateral pressure distributions against the vertical wall are include the effect of…
A:
Q: Situation 12 - A simply supported beam has a span of 12 m. The beam carries a total uniformly…
A: Simply supported beam has span 12m and it's carries total 28 KN/m uniformly distributed load.…
Q: Calculate the vertical index difference and vertical angle in Tab
A: Station Target Vertical position Vertical dial reading O A L 78o32'12'' R 281o27'54'' B L…
Q: A flange bolt coupling consists of 7 38 mm diameter steel bolts spaced around a bolt circle 285 mm…
A: Number of bolts = 7 Diameter of bolts = 38 mm Diameter of bolt circle = 285 mm Polar modulus = J r =…
Q: Annual rainfall at a given location can be described by a normal distribution with a mean of 127 cm…
A:
Q: (1) Using the double integration method, derive the equation of the elastic curve of the cantilever…
A:
Q: A horizontal curve has a degree of curvature of 10. Find the radius. Select one: a. 180 ft. O b.…
A: Given: Degree of curve=100 To find: Radius of curve.
Q: 3) Use the method of joints to find the force in each member of the truss shown below in Fig 5.3 A B…
A: Determine the force in each member of the truss using Method of Joints.
Q: If the average daily consumption of a city is 100,000 m³, the maximum daily consumption on peak…
A: Given data: The average daily consumption = 100,000 m3 Peak hourly demand =? We have to calculate…
Q: 2. A simply supported beam is carrying the following loads: Values . Pm (refer to the table at the…
A: Beam size = 125mm × 350mm Determine a. Support reaction b. Draw shear force and bending moment…
Q: What are the specific procedures involved in conducting structural database testing, and how does it…
A: Structural database testing focuses on verifying the integrity and functionality of the database's…
Q: Situation 8- The cantdever beam shown is fixed at C. Given: L = 25 m, a = 0.3 m P = 40 kN, w = 8…
A: L= 2.5 m, a= 0.3 m , P-40 kN, w= 8 kN/m Calculate the moment (kN-m) at C=? Calculate the torque…
Q: The shaft shown in Figure 4 is made of red brass C83400 copper with an allowable shear stress of 20…
A: Allowable shear stress, τa = 20 MPa L = 0.75m or 750 mm
Q: 5.116 A pump is to move water from a late to a large, pressurized tank at a rate of 1,000 gallons in…
A:
Q: In titration for alkalinity (5.0 ml) of 0.02N Sulfuric acid is used to reach the phenolphthalein end…
A: Volume of H2SO4 required for phenolphthalein End point V1=5ml Volume of H2SO4 required for green…
Q: For the frame in Fig. 1, Determine the reactions at the supports. El is constant. (using force…
A: The frame is given as To find:- Support reactions Concept:- The force method of consistent…
Q: For the PI Inaccessible problem: Sta. X = 75+50.00, XY =800.00 ft, angle x = 35°00'00", angle y…
A: Given; Sta. X = 75+50.00 XY = 800.00 ft. angle X = 35 DEGREE angle Y = 30 DEGREE Radius for the…
Q: A 30 cm square plate settle by 8 mm in the plate load test on a cohesionless soil, when the…
A: A 30 cm square bearing plate settles by 8 mm in the plate. Width of plate, Bp = 30 cm = 0.3 m…
Q: A car is traveling up a 1.5% grade at 65 mi/hr on good, wet pavement. The driver brakes to try to…
A: Given; Grade: 1.5% (or 0.015 as a decimal) Initial speed: 65 mi/hr Reaction time: 1.5 seconds…
Q: The intensity of rain fall and the time interval of a typical storm are Time interval (minutes)…
A: The intensity of rainfall and the time interval of a typical storm is given as shown in table- To…
Q: A city supply of 15000 cubic metres of water per day is treated with a chlorine dosage of 0.5 ppm.…
A:
Q: An HSS10x10x3/16 is used as a compression member with one end pinned and the other end fixed against…
A: The section HSS 10×10×316 with one end pinned and the other end fixed against rotation but free to…
Q: The runway length after correcting for elevation and temperature is 2845 m. If the effective…
A:
Q: Design the torsional and shear reinforcement for the beam as shown in the figure. The resulting L…
A: Concrete shear reinforcement is designed to resist forces greater than concrete's shear strength. A…
Q: An eight-lane freeway section is designed to have a lane width of 10 ft, right-side shoulder width…
A: Number of lanes = 8 Number of Lanes in each direction = 4 Width of lane = 10 ft Right side shoulder…
Q: Question 2: True or False? Please give simple reason for each of them. (1) Diffusion is a time and…
A: (1) True. Diffusion is a time and temperature-dependent phenomenon by atomic transport. Diffusion…
Q: Situation 10-A 25 m simply supported girder of a bridge is crossed by a standard H. loading…
A: Length of simply support beam = 25 m Load carrying of two wheel load of 142.4 KN and 35.6 KN which…
Q: The horizontal top of a concrete column is subjected to the system of forces shown. Represent the…
A: Sign convection Along axis direction = positive Along opposite direction = negative - Along x…
Q: Given a vertical flow in a stratified soil which consists of three layers, their depths are di, d2,…
A: Three layers of stratified soils with depths d1, d2 and d3. Hydraulic conductivities of soils, k1,…
Q: The design speed of a highway is 70 km/h. There is a horizontal curve of radius 160 m on a certain…
A: Design speed V=70 km/h, Radius of curve R=160 m, Transverse coefficient of friction f=0.15 Maximum…
Q: 3. A concrete floor slab is reinforced by steel rods placed 38mm above the lower face of the slab…
A:
Q: Question 3: Please give simple reason for it. What failure is most likely to occur in a gas turbine…
A: A gas turbine blade operating at high temperature can experience failure. We need to determine the…
Q: Q2 (b) Rankine's lateral pressure distributions against the vertical wall are include the effect of…
A:
Q: A 777771 B с D 30 KN E 2m F G 30 KN 32 KN 5 SPAN @ 1m = 5 m H I 20 KN mi F using method internal…
A:
Q: A 2 mx 2 m tank with vertical sides contains oil of density 900 kg/m³ to a depth of 0.8 m floating…
A:
Step by step
Solved in 3 steps
- The following tubular A36 steel shaft has an inner diameter of 25mm and an outer diameter of 35mm under the following loading condition. Determine the angle of twist of the end V. Consider: GA-36 = 75 GPa 1) What would happen if a solid shaft was used? 2) As a designer, do you recommend a solid or tubular shaft for the loading above? Why?A flanged bolt coupling consists of 9-17-mm-diameter steel bolts on a bolt circle 600 mm in diameter, and 5-17-mm-diameter steel bolts on a concentric bolt circle 300 mm in diameter. What torque can be applied without exceeding a shearing stress of 66 MPa in the bolts? Answer must be in kN-m.A flanged bolt coupling is used to connect a solid shaft 110 mm in diameter to a hollow shaft 100 mm in outside diameter and 90 mm in inside diameter. If the allowable shearing stress in the shafts and in the bolts is 56 MPa, how many 18 mm-diameter steel bolts must be used on a 300 mm-diameter bolt circle so that the coupling will be as strong as the weaker shaft?
- Don't copy from other websites. Determine the maximum load P that can be applied if the device is made from a 1.5" diameter round bar. The allowable stress is 70 Ksi.Given the following allowable stresses:• 50 MPa for shear in rivets• 100 MPa for bearing between a plate and a rivet• 80 MPa for tension in the platesNOTE: Draw FBD(a) If we increase the diameter of each bar to 20 mm, determine the maximum load Pthat can be applied to the lap joint.(b) Using the value computed for maximum load P from (a) compute for the over-allfactor of safety given that the actual P= 20kN.Tow square bars are welded together and loaded axially as shown: Determine The normal stress between A&B The normal stress between B&C The normal stress between C&D The total change in length of the bar Assume : w1 =40 mm, w2 = 50 mm, P1 = 130 kN, P2= 65 kN, and P3 =260 kN. E = 200,000 Mpa original lengths LAB = 100 mm, LBC = 120 mm, and LCD = 130 mm,
- A flanged bolt coupling consists of six 1/2-in. steel bolts evenly spaced around a bolt circle 12 in. in diameter, and four 3/4-in. aluminum bolts on a concentric bolt circle 8 in. in diameter. What torque can be applied without exceeding 9000 psi in the steel or 6000 psi in the aluminum? Assume Gst = 12 x 10^6 psi and Gal = 4 x 10^6 psi.Please give me right solution A stell (A36) Column W 16 x 36 is fixed at both ends. The actual height of the column is 18 feet. Assume appropriate E value and determine the critical load (Pcr) for this column with a factor of safety of 2.2. What will be the allowable safe load of this column?In order to reinforce a column in an existing structure, two channels are continuously welded to the column as shown below. Fy = 50 ksi for both the column and the channels. The effective length with respect to each axis is 16 feet. a) calculate the Moment of Inertia about each axis of the built-up shape. a) what is the available axial compressive strength and what is the percentage increase in strength? Use both LRFD and ASD.
- A steel plate 375mm x 16mm thick is bolted by four bolts placed symmetrically to form a single lap joint. The bolts are spaced horizontally at a distance of 140mm and vertically at a distance of 150mm. If the diameter of bolt is 20 mm, calculate the design tensile strength in KN based on net section fracture considering a straight vertical path of failure Use Fy=248MPa and Fu=400MPa a) 1339.2 b) 1569.6 c)2092.8 d) 1488What is the minimum required bolt diameter (mm) at C ifthe allowable bolt shear stress is 68 Mpa.a. 9 mm c. 11 mmb. 10 mm d. 12 mm Determine the stress (Mpa) in strut BC.a. 5.6 MPa c. 3.2 MPab. 2.8 MPa d. 6.4 MPa Calculate the bolt stress (Mpa) at A if its diameter is 20mm.a. 7.64 MPa c.11.46 MPab. 3.82 MPa d.14.92 MPaCompute the maximum acceptable tensile SERVICE LOAD that may act on a single tee section that is connected to a gusset plate using welds 12 inches long, as shown in the figure. The service live load is three times the dead load. Use A992 steel. USE LRFD ONLY, no block shear will occur. What is the Governing Ultimate Tensile Capacity based on Net Fracture Round your answer to 3 decimal places.