A steel pipe (D = 3.500 in.; d = 3.068 in.) supports a concentrated load of P = 500 lb as shown. The span length of the cantilever beam is L = 3 ft. Determine the magnitude of the maximum bending stress in the pipe. 9.80 ksi O 8.52 ksi O 13.19 ksi O 10.44 ksi O 6.54 ksi L B Pipe cross section.
Q: A half-full circular open channel is shown below. The diameter of the channel is D=2 m. (3)…
A: Given Data- An open channel flow given D=2m So R=D/2 = 1m We have to find hydraulic radius
Q: b) i) Briefly define internal flow and external flow from the fluid mechanics perspective and give…
A:
Q: The horizontal force P = 85 N is applied to the upper block with the system initially stationary.…
A:
Q: For the planar mechanism of figure below, link 4 serves as slider support which is free to rotate…
A: For planner mechanism link 4 serves as a slider support which is free to rotate about z axis. The…
Q: NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to…
A:
Q: Figure shows a pipe system. At the entrance to the pipe (point 1), the diameter is d₁ and it is a…
A: Given: p1 =ϕ1
Q: 1. Determine the stretch in each of the two springs required to hold the 20-kg crate in the…
A:
Q: A b) B F In the accompanying figure, F = 1772 N, a = 60° and 0 = 54° and the components of F along…
A:
Q: If the maximum chain speed for a sprocket having 19 teeth is 750 fpm, estimate its minimum chain…
A: The teeth are the small indentation in the periphery of the circular object. The distance measured…
Q: a. The Healthy Food Restaurant operates seven days a week. The daily requirements for staff are…
A: Given:
Q: Find the position of the center of mass of a system formed by four particles of masses m1 = m3 = 2…
A:
Q: A 5-m-long simply supported timber beam carries two concentrated loads as shown. If L = 28 kN and M…
A:
Q: ô FLUID 100cm Figure Q1b 200cm Fluid with weight of 25 kN is filled into a container of width 100 cm…
A: Given data, Fluid weight = 25 KN, width = 100 cm, We have to find density and specific weight of…
Q: b) Each member of the truss is a uniform 20 m long bar weighing 400 kg. Calculate the a average…
A: Given: The mass of each member, m = 400 kg The length of each member, L = 20 m
Q: A load P is supported by a structure consisting of rigid bar ABC, two identical solid bronze [E =…
A:
Q: A load P is supported by a structure consisting of rigid bar ABC, two identical solid bronze [E =…
A: Series Combination:- Series combination of bars is a type of series where axial deflection is…
Q: The air in an ideal Otto engine is initially at 14.5 psia, 100 deg F. At the end of isentropic…
A:
Q: _-_) Determine the velocity of the slider block C at this instant. Express your answer to three…
A:
Q: O 218 kN-m O 137 kN-m O 184 kN-m O 201 kN-m O 113 kN-m L M
A:
Q: Consider a steam turbine power plant as shown with the given properties below. Enter state of pump…
A:
Q: A flow is said to be supersonic, if the (a) If the velocity of flow is very high (b) Mach number is…
A: Depending on the Mach number, flow can be classified into various types. Mach number is the ratio of…
Q: Determine the moment of inertia of the cross-sectional area of the reinforced channel about the…
A:
Q: Determine the forces in members CD, CJ, and DJ.
A:
Q: The truss is composed of equilateral triangles of side a = 2.4 m. The load is L = 370 N. Determine…
A: Given data: Side length of triangle (a) = 2.4 m Magnitude of the load (L) = 370 N Concept: At…
Q: An average flow rate of industrial waste water is 1000 m'/day and 4000 mg/li organic substance with…
A: solution of above problem is below:
Q: 185 In a pure shear condition, the maximum value of shear stress is observed to be 20 MPa for an…
A:
Q: The solid shaft is loaded (two point loads) and supported (fixed at left end) as shown. For the xyz…
A: AS this Question as multiparts solving first part or you can mention the part Given data -: 1. dia…
Q: 2. (a) State the general formula for the 1st Law of Thermodynamics for any open system. For an open…
A:
Q: AW1305 x 41 standard steel shape is used to support the loads shown on the beam. The dimensions from…
A: Given data 1. load at point A=Pa=14kN 2. uniform load between point BC=Wbc=10KN 3. Length AB=2m 4.…
Q: Look at the block diagram for the dynamic model of the hydraulically actuated system in Fig where:…
A:
Q: The distance y = 2.8 m. Find the upward velocity of A if the downward velocity of B is 3.8 m/s.…
A:
Q: Water is the working fluid in a Rankine cycle. Steam exits the steam generator at 1500 lbf/in.² and…
A: Given data as per the question p3=1500 lbfin2T3=1100 0FP3'=1400 lbfin2T3'=1000 0FηT=0.85
Q: In the homogenous strain region of a tensile test, a sample elongation of Al=10 mm is measured. The…
A: As per our guidelines, we can answer only the first three parts. Kindly post the remaining questions…
Q: P₂ * 1/3 + 2,5-1,8 = 2/3 +² ₂ === Y OB.h₂ = (2₂-2₂) +h, OCP₁ 7 -2₁ - 1₁ + 1 = 21/2² +2₂ 7 - +²₂+. 2g…
A: Volume flow rate: Q=0.015 m3/s Elevation difference: h=8.0m Suction line:…
Q: 1. Ten cu ft of air at 300 psia and 400°F is cooled to 140°F at constant volume. What are (a) the…
A: Given data as per question T1=4000F=477.59 k=859.67 0RT2=1400F=333.15k=599.67 0R
Q: ) The specific gravity of a liquid 10.496 ft depth is 0.7. Determine the essure in Pa.
A:
Q: Two parallel shafts have a center distance of 16-in. One of the shafts carries a 42-tooth, 2…
A: Given data: ◆ The center distance between the two parallel shafts: CD = 16 inch ◆ The diametral…
Q: A smooth square cylinder is put in 15 °C flowing water. The flow direction is perpendicular to the…
A:
Q: b) Steam enters steadily into a nozzle at 500°C and 500 kPa with a mass flow rate of 5 kg/s and…
A:
Q: A solid 0.72-in.-diameter shaft is subjected to the torques shown. The bearings shown allow the…
A:
Q: 3.9 A thin cylindrical steel drum, 10 mm thick, is subjected to an internal pressure of 1,5 MPa and…
A: Given data: N=259 rpmσ=120 MPa Need to determine the diameter of the drum.
Q: 2. The thin ring can be adjusted vertically between three equally long cables from which the 100-kg…
A: Given data: m=100 kgz=600 mm Need to determine the force in each cable.
Q: In the figure, aluminum [E = 72 GPa] links (1) and (2) support rigid beam ABC. Link (1) has a…
A:
Q: An ideal Rankine cycle with reheat uses water as the working fluid. As shown in the figure below,…
A: Given data: ◆ The condition of steam at the turbine inlet: P1 = 1600 lbf/in2 , T1 = 1200 °F ◆ The…
Q: A) Normal and shear stresses acting on horizontal and vertical planes at the point is shown in the…
A:
Q: Unless otherwise specified, all tolerances and datum features apply for the full Unless otherwise…
A:
Q: A coupling with material AISI C1045 as rolled transmits 65.5 HP at 1750 rpm. The material of the…
A:
Q: A 40 mm diameter aluminum cylinder and 20 mm diameter steel cylinder are positioned snugly between…
A:
Q: Yielding starts in a material when the princip stresses are 100 MPa, 100 MPa and 200 MPa. F per the…
A:
Q: Determine the maximum weight of the crate that can be suspended from cable AB, AC, and AD so that…
A:
Trending now
This is a popular solution!
Step by step
Solved in 2 steps with 3 images
- A steel pipe (D = 3.500 in.; d = 3.068 in.) supports a concentrated load of P = 644 lb as shown. The span length of the cantilever beam is L = 5 ft. Determine the magnitude of the maximum bending stress in the pipe. 20.35 ksi 28.30 ksi 22.41 ksi O 17.98 ksi O 31.11 ksi L B Pipe cross section.4. Determine the maximum shear stress and maximum bending stress in the beam shown. Ans: Timm= 5,36 ma 6.2 kN 3 kN/m B I w310 x 60 1.8 m - 1.8 m 0.9 m 0.9 m 5. A cantilever beam is loaded as shown. It is reinforced with 2 identical plates between B and C welded to the top and bottom of the beam. Determine the maximum bending stress in the beam. Also determine the largest shear stress in the beam and the largest shear stress between the plates and the W section. Ans: Tueld" ,5lem Pa Omax =t12 mPa 30 kN/m 5 x 120 mm 20 kN-m 14 W250 x 22.3 0.8 m- 1.2 mThe steel beam has the cross section shown. The beam length is L = 17 ft, and the cross-sectional dimensions ared = 15.5 in., b; = 10.7 in., t = 0.635 in., and tw = 0.340 in. Calculate the maximum bending stress in the beam if wo = 4.7 kips/ft. B Answer: Omax ksi
- The cantilever beam shown is subjected to a concentrated load of P=70800 lb. The cross-sectional dimensions and the moment of inertia of the W16x57 wide-flange shape are: d = 16.4 in. tw=0.430 in. by=7.12 in. ty=0.715 in. 1₂-758 in.4 Compute the value of the shear stress at point H, located at y = 4.8 in. below the centroidal xis. H Answer: Shear stress = psiThe steel beam has the cross section shown. The beam length is L = 18 ft, and the cross-sectional dimensions ared = 15.1 in., b; = 9.3 in., tę = 0.630 in., and tw = 0.335 in. Calculate the maximum bending stress in the beam if wo = 6.1 kips/ft. B Answer: Omax = i ksiThe wood beam supports loads of w = 410 Ib/ft and P = 840 lb on span lengths of LAB = 10.8 ft, LBC = 5.4 ft, and LcD= 5.4 ft. The beam cross section has dimensions of bq = 1.9 in., dq = 5.7 in., b2 = 5.0 in., and d2 = 14.95 in. Determine the magnitude and location of: (a) the maximum horizontal shear stress in the beam. (b) the maximum tensile bending stress in the beam. %3D %3D P d d2 В C D LAB LBC LCD b2 Answer: (a) Tmax psi (b) Omax psi
- A WT305 x 41 standard steel shape is used to support the loads shown on the beam. The dimensions from the top and bottom of the shape to the centroidal axis are shown in the sketch of the cross section. Assume LAg - 2 m, Lac- 7 m, Lco- 4 m, PA- 14 kN, Wac- 8 kN/m. Consider the entire 13-m length of the beam and determine: (a) the maximum tension bending stress or at any location along the beam, and (b) the maximum compression bending stress oc at any location along the beam.The steel beam has the cross section shown. The beam length is L = 19 ft, and the cross-sectional dimensions are d = 18.9 in, b; = 10.3 in, t = 0.675 in, and t, = 0.305 in. Calculate the maximum bending stress in the beam if wg = 4.0O kips/ft. Answer: Omax ksiAWT305 x 41 standard steel shape is used to support the loads shown on the beam. The dimensions from the top and bottom of the shape to the centroidal axis are shown in the sketch of the cross section. Assume LAB = 2 m, Lgc = 6 m, LCD = 2 m, PA = 14 kN, WBC= 10 kN/m. Consider the entire 10-m length of the beam and determine: (a) the maximum tension bending stress o at any location along the beam, and (b) the maximum compression bending stress oc at any location along the beam. PA LAB Answers: (a) σT = (b) oc = i B WBC N LBC WT305 x 41 C LCD 88.9 mm 211.1 mm MPa. MPa.
- Question 1) F=11 kN single load, M=22 kN.m moment andA distributed load of w=5 kN/m is effective. The length L is also given as L=5 m.The cross-sectional properties of the beam are; body height Hg=218 mm, body thickness xg=18 mm, flangewidth xf=190 mm, flange height yF13 mm. Point E on the section is flange-It is located just below the body junction. In the section taken from the B line of the beamIt is desired to determine the stress state. According to this;Question 1-A) Find the support response (DY) at point D. (Return your result in kNQuestion 1-B) Find the support response (Ay) at point A. (Return your result in kNwrite.)Question 1-C) Find the shear force (VB) at point B. (KN your resulttype in size.)AWT305 x 41 standard steel shape is used to support the loads shown on the beam. The dimensions from the top and bottom of the shape to the centroidal axis are shown in the sketch of the cross section. Assume LAB = 3 m, LBC= 6 m, LCD= 4 m, PA = 10 kN, WBC = 7 kN/m. Consider the entire 13-m length of the beam and determine: (a) the maximum tension bending stress or at any location along the beam, and (b) the maximum compression bending stress oc at any location along the beam. A PA LAB B WBC LBC T WT305 x 41 LCD ↑ 88.9 mm. 211.1 mm D XQuestion 77 A light-alloy beam (i.e., assume weightless beam) has a solid rectangular homogeneous section where b = 12 mm (width) and d = 5 mm (height). The beam is simply supported across a span L = 200 mm with a concentrated point load F = 70 N located at the mid-point of the beam. Calculate the maximum bending stress. F L/2