5.41 The inverted T-beam supports three concentrated loads as shown in the fig- ure. Find the maximum allowable value of P if the bending stresses are not to exceed 3.5 ksi in tension and 8 ksi in compression. A 14P D E →21131-311-20 F ft ft- FIG. PS.41 1.0 in.- 14 in 8 in. 1.0 in.
Q: II KN m SKN m 3 kN m 3 kN m 75 mm 85 mm 70 mm 2 m 2 m 2 m FIGURE P12-6 The "new" magnitude of the…
A: First balance the existing torques , if there is requirement of new torque at B, then it will be…
Q: Determine the resultant of the force system shown in Fig. 224 300 2 30 3 361
A:
Q: 1.51 kN, determine if it is stable or not? Apply I = BH/12 0.66 m 1.52 m w oso
A:
Q: For Figure Q1a, at what angle θ must the force F2 (= 1240 N) be applied in order that the resultant…
A: Given data:
Q: 7. 2) The lawn roller has a mass m = 60 kg and a radius of gyration about its gravitational center…
A: Given data as per the Question m=60 kg P =437 N Calculations considering FBD of the system…
Q: Each of the links AB and CD is made of aluminum and has a cross-sectional area of 0.19 sq.in.…
A: Consider prismatic bar of length L and cross-sectional area A is subjected to axial load P. Then,…
Q: If the maximum force that any member of the truss in Fig. Q3 can support is 8 kN in tension and 6 kN…
A:
Q: What is the depth of the liquid in a container if the specific weight of the liquid is 56 Ib/ft3,…
A:
Q: Example (Q1): A turbo-compressor takes 969 ft/min volume of refrigerant gas for the operation of the…
A: Given Data The mass flow rate of gas is:m˙=969 ft3/min=457.32 kg/s The atmospheric pressure…
Q: calculating the engine's output.
A: To find engine's output.
Q: Question : A 100 mm- diameter, thin walled duct covered with a 50 mm-thíck layer of insulation (ki =…
A: INTRODUCTION : Heat losses from the hot fluid always occur when hot steam is conveyed out through…
Q: For a gripping force of 15 lb, determine the normal force FNexerted on the round stock by each jaw.…
A:
Q: As shown in the sketh below, a steam pipe of 0.12-m inside diameter is insulated with a layer of…
A: The thermal resistance of a cylinder can be calculated using the formula given below- R=12πkLlnrori…
Q: w = wo sin (7x) Wo A L if wo-(acute angle between the hands of a clock at 7:30 A.M.) Ib/ft and…
A:
Q: A. Compute for the porosity of paddy and corn using the average bulk and true density. Bulk Density…
A:
Q: For no. 5, consider the weights of two children sitting at ends A and B of a seesaw equal to 40 kg…
A: When a hinged body is subjected to multiple forces then for the equilibrium of the body, net moment…
Q: B1. A snowboarder rides over a jump (see the sketch below), where the launch ramp is at an angle of…
A: (1) Consider the path from take off point to start point of landing. Apply kinematic equation in…
Q: 2kN 4. Determine the force in each member of the truss in Fig. Q4 and state if the members are in…
A:
Q: Given olata Mace of ball- 21 of ball- ?Kg f boll= 1ms velarity Find Kinetic energy
A:
Q: How can you know what kind of bars are made. Explain by investigating net magnetization. (Magnetism…
A: Given question: How can you know what kind of bars are made. Explain by investigating net…
Q: A sink of strength 20 m2/s is situated 3 m upstream of a source of 40 m²/s in a uniform stream. It…
A: Soln:-in this problem Sink strength = ^ =20 m^2/s R= 3 m We know, Radial velocity = vr = ^/2πr…
Q: For each of the following statements, answer TRUE or FALSE and explain your answer briefly. In…
A:
Q: Q1/ Find the resultant (R) and the direction (N) of the two forces shown in Figure below ? The angle…
A:
Q: واجب رقم 1 Home work واجب بيتي shown is subjected to two forces F1 and F2. If it is required that…
A:
Q: A truck is attempting to pull a 500Ñ weight crate that is originally at rest to the entrance of the…
A: Given: w = 500 kg static friction coefficient = 0.4 dynamic friction coefficient = 0.3
Q: Fill in the blanks: Find the distance in (inches) of the shafts if the small cylinder is 88 inches…
A:
Q: the given beam: mine the vertical reaction By at point B
A: Required Vertical reaction at point b
Q: QUESTION 16 Five forces: Fi, Fa. Fa, Fa and Fs are applied to point O. The F= 40N force F2 which…
A:
Q: An air with uniform current if flowing around a STATIONARY cylinder at a speed of 100 ft per sec.…
A:
Q: 1. Water flows into a 3m vertical pipe and into a 2m horizontal pipe before discharging into the…
A: given; diameter of pipe(d)=2*12 =24cmvelocity(V)=4m/sdensity of…
Q: Determine the radius of gyration k, for the combined sections shown in the figure about the y axis.…
A:
Q: to a fully loaded 100 hp turbine at 200 psia with u1 = 1160 BTU/lb, V1 = 2.6 ft3/lb and v1 = 380…
A:
Q: Calculate the enthalpy of combustion of propane C3H8 at 25 oC in both kJ/kg and kJ/mole under the…
A:
Q: An engineer wants to design an improved elevator for a building. The original design used a motor…
A: Force = mass * acceleration
Q: A closed system of 2 kg of alr initially at a pressure of 5 bar and temperature 227° C expands…
A: Given that, m=2 kg, p1=5 bar=500 kPaT1=227°C=227+273=500 Kp2=2 bar=200 kPa, law of process is…
Q: A rectangular piece of wood, 55 mm by 101 mm in cross-section is used as a compression block. The…
A: (a) The maximum axial load is 86.42 kN. (b) The allowable compressive stress is 13.74 MPa.
Q: When minimum space is an important requirement, the best type of mechanical connecting device for…
A:
Q: 3. 2x° Cos 5y dx t x tan5y dy %3D
A:
Q: 1200 N 0.8 m D. 0.6 m 0.6 m 0.6 m FIGURE E4-8(1) The magnitude of the force transmitted thru Pin-E…
A: Diameter at pin E, DE= 16 mm= 0.016 m Diameter at pin D, DD= 12 mm= 0.012 m
Q: Situation 3: The speed of the train during the first minute has been recorded as follows: t (s) 20…
A:
Q: Provide a complete given and computation. Include all the decimals. There are received 68,000 kg/h…
A: Heater pressure = 96Mpa Heater recives = 15400 kg/h Condenser pressure = 0.07 Mpa At 96 Mpa S1=…
Q: As shown in Figure (C), a machine of mass (m=500kg) 1s mounted on a simply supported steel beam of…
A: When a beam having length 'L' and moment of Inertia 'I' is subjected to a point load 'P' at the…
Q: A DC motor-driven pump running at 100 rpm delivers 500 gpm pf water against a total pumping he 90 ft…
A:
Q: steam engine develops power at mean torque of 18,000 N-m and velocity of 9 m/s. The mean diameter of…
A:
Q: he cylinder of a hydraulic press is made up of thick-walled cylinder having an inside diameter of…
A: The maximum shearing stress in the thin cylinder can be calculated using the formula given below as-…
Q: Determine the components of the support reactions at the fixed support A on the cantilevered beam.…
A:
Q: Determine the centroid coordinates (x̄ , ȳ) for the beam section shown in Figure Q6. Give your…
A:
Q: 12.2: m, kg of water at absolute temperature T, is isobarically and adiabatically mixed with m2 kg…
A:
Q: A train mechanical system shown in Figure 1, consist of engine draw a car moving in one direction.…
A:
Q: In the truss system shown, Calculate all internal forces in 3 m each member by method of joints.…
A:
Step by step
Solved in 2 steps with 2 images
- A beam of size 150 mm wide, 250 mm deep carries a uniformly distributed load of w kN/m over entire span of 4 m. A concentrated load 1 kN is acting at a distance of 1.2 m from the left support. If the bending stress at a section 1.8 m from the left support is not to exceed3.25 N/mm2 find the load w.A solid rectangular homogeneous section (total length = 7.2m) is simply supported, where b = 50 mm and d = 175 mm. A concentrated load F = 140 N acts at point C where L1 = 4.00 m L2 = 3.20 m. Calculate the maximum bending stress and give your answer in N/mm2 to 2 decimal places. *Assume the weight of the beam is negligible and zero.A rectangular beam 80 mm x 40 mm is 3m long and simply supported at the ends. It carries a load of 1 kN at the mid-span. Determine the maximum bending stress induced in the beam.
- A wooden beam AB supporting two concentrated loads P has a rectangular cross section of width b = 100 mm and the height h = 150. The distance from each end of the beam to the nearest load is a = 0.5 m. the span kf the beam is 5 m. Determine the maximum permissible value P (in kN) if the allowable stress in bending is 11 MPa (for both tension and compression)a cantilever beam 3m long by 30cm depth by 10cm breadth has a single 45kg load at the unsupported end. a.) draw the shear and moment diagram. b.) Determine the maximum moment. c.) determine the maximum flexural stressA vertical loads of 400 N acts at the end of a horizontal rectangular cantilever beam 2 m long and 25 mm wide. If the allowable bending stress is 130 MN/m^2, find the depth of the beam in mm
- A timber dam is made of planking backed by vertical piles. The piles are built-in at the section A where they enter the ground and they are supported by horizontal struts whose center lines are 10 m above A. The piles are spaced 1 m apart between centers and the depth of water against the dam is 10 m. Assuming that the thrust in the strut is two-sevenths the total water pressure resisted by each pile, sketch the form of the bending moment and shearing force diagrams for a pile. Determine the magnitude of the bending moment at A and the position of the section which is free from bending moment. (Cambridge). i. 238 kN-m; 0.75 m from A. ii. 238 kN-m; 0.75 m from B.A rectangular bar having width twice the depth is used as a beam. The beam is made of mild steel material having elastic modulus of 2.1 x 105 N/mm? and it undergoes bending by external load which makes radius of curvature of 150 m. If the allowable bending stress in the beam is to be limited to 100 MN/m. find the cross section of the beam.A beam having a tee-shaped cross section is subjected to equal 13 kN-m bending moments, as shown. Assume bf = 95 mm, tf = 25 mm, d = 165 mm, tw = 40 mm. The cross-sectional dimensions of the beam are also shown. Determine(a) the centroid location (measured upward from the bottom), the moment of inertia about the z axis, and the controlling section modulus about the z axis.(b) the bending stress at point H (positive if tensile and negative if compressive).(c) the maximum bending stress (positive if tensile and negative if compressive) produced in the cross section.
- A beam of rectangular section of 12 cm × 20 cm is simply supported over a span of 12 m. It is acted upon by a load of 80 kN at the mid span. Determine the maximum bending stress induced in thr beam.A cantilever beam is subjected to a concentrated load of 2000N. The cross sectional dimensions of the double-tee beam are shown. Determine (a) the shear stress at point H, which is 17 mm below the centroid of the double-tee shape, (b) the shear stress at point K, which is 5 mm above the centroid of the double tee shape, and (c) the maximum horisontal shear stress in the double tee shape.A 4-m long simply supported beam has a section modulus of 1408 x 10³ mm³. The allowable stress in the beam is not to exceed 100MPa. The maximum distributed load that the beam can carry is most nearly,