Department: Mechanical EngineeringMENG 222 – Strength of MaterialsPLEASE solve it very very quickly ?? ¶Draw neat, labelled diagrams.¶Write relevant equations.¶Be clear and specific and include units in answers.All thank and appreciation ?? ? Centroids of Common Shapes of Areas and LinesShapeAreaTringular areaQurter-circular areaSemicircular areaol2.Semipurabolic areaParabolic areaParabolie spandel2r sinaCircular sectorarQuarter-circular areSemiciroular reAre of circle2arMoments of Inertia of Common Geometric Shapes1, = bh"Rectangle1, - AJe- bh( + h)Triangle1,- bhCircle1,-1, - wrSemicircle1, -1, - kmQuarter circle1, - wab1, = wa'bEllipseAl al THE MAGNITUDE OF THE WEIGHT (W=X+X+X+X+... kN) WILL BE THE SUMMATION OF ALLTHE NUMBERS IN YOUR STUDENT NUMBER.The frame system will be used to support the 1.8m diameter cylindrical tank by a hangersystem AC and BC as shown, knowing that the weight (W) of the drum magnitude is XXXXkN. Determine the diameter of the pins at A and C. Knowing that for the hangers material,the ultimate shearing strength is 300 MPa. Use a factor of safety of 4.0 for all connections.Neglect the weight of the hangers and the contact assume frictionless contact between thetank and the hangers.1.8m.A(100x20)mm(100x20)mm2.5m1.2mC

we are tasked to figure out the reactions at A and C , and from there figure out the stresses at…

The frame system will be used to support the 1.8m diameter cylindrical tank by a hanger system AC and BC as shown, knowing that the weight (W) of the drum magnitude is XXXX kN. Determine the diameter of the pins at A and C. Knowing that for the hangers material, the ultimate shearing strength is 300 MPa. Use a factor of safety of 4.0 for all connections. Neglect the weight of the hangers and the contact assume frictionless contact between the tank and the hangers.

The frame system will be used to support the 1.8m diameter cylindrical tank by a hanger system AC and BC as shown, knowing that the weight (W) of the drum magnitude is XXXX kN. Determine the diameter of the pins at A and C. Knowing that for the hangers material, the ultimate shearing strength is 300 MPa. Use a factor of safety of 4.0 for all connections. Neglect the weight of the hangers and the contact assume frictionless contact between the tank and the hangers.

International Edition---engineering Mechanics: Statics, 4th Edition

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter6: Beams And Cables

Section: Chapter Questions

Problem 6.63P: The cable of the suspension bridge spans L=140m with a sag H=20m. The cable supports a uniformly...

See similar textbooks

Similar questions

The cable of the suspension bridge spans L=140m with a sag H=20m. The cable supports a uniformly distributed load of w0 N/m along the horizontal. If the maximum allowable force in the cable is 4 MN, determine the largest permissible value of w0.
Bar AB of negligible weight is supported by a ball-and-socket joint at B and two cables attached at A. Draw the FBD for the bar, recognizing that it is a two-force body. Determine the number of unknowns.
The 20 × 20-in. square plate shown weighs 56 lb and is supported by three vertical wires. Determine the weight and location of the lightest block that should be placed on the plate if the tensions in the three wires are to be equal.
A bronze bushing is mounted inside a steel sleeve. Knowing that the specific weight of bronze is 0.318 lb/in3 and of steel is 0.284 lb/in3 , determine the location of the center of gravity of the assembly.
The length of the assembly shown decreases by 2.1 mm when an axial force is applied by means of rigud end plates. Determine the magnitude of the applied force (kN).
please show complete solution Given: W = 656 lb
Determine the weight of the heaviest cylinder which can be placed in the position shown without exceeding a stress of 50 MN/m2 in the cable BC. Neglect the weight of the bar AB. The cross – sectional area of cable BC is 100mm2.
The pneumatic/hydraulic system shown is use to lift a load. If the inlet air pressure is 450 kPa, determine the maximum load that can be lifted.
For the steel truss and loading shown, determine the magnitude of the force (lb) of member BE, knowing that x = 12.2 ft, y = 7.8 ft, and P = 28550 lb. Round off only on the final answer expressed in 3 decimal places .
A triangular block shown is subjected to the loads S = 1000 lb and T = 2000 lbs. If AB = 8 in and BC = 6 in, resolve each load into components normal and tangential to AC.
When the truck is empty, it weighs 6000 lb and its center of gravity is at G.Determine the total weight W of the logs, knowing that the load on the rear axle is twice the load on the front axle.
The 45-lb square plate shown is supported by three vertical wires. Determine the tension in each wire.