ssemble element stiffness matrix for the member of plane frame shown in Figure P3.6, if it is oriented at angle 30 degree to the x-axis Pa, I = 4 x 10^-6 m4 and A = 4 x 10^-3 m2 5 m 30°
Q: Neglecting the effects of friction, derive a transfer function for the system below, from X:(s) to…
A:
Q: Discuss intergranular corrosion and give examples for each type.
A: To discuss about intergranular corrosion with an example.
Q: Two concentric, helical compression springs support a 6.5-kip load. The larger spring has an outside…
A:
Q: A mechanism carries a constant load P applied to the seat as shown. For the angle 8, determine the…
A:
Q: A 19 ft long, simply supported beam is subjected to a 5 kip/ft uniform distributed load over its…
A:
Q: 7. Calculate the displacement at the free end of the inclined beam shown in Figure P3.7.Repeat the…
A:
Q: If arm 6 and gear 5 in the following figure are driven clockwise (viewed from the right end) at 150…
A: Given; The number of teeth on pinion, Zp = 24 The pitch of pinion, p = 6 The pressure angle, α = 20°…
Q: What is the minimum diameter of a solid steel shaft that will not twist through more than 4o in a 9…
A: Given data : Angle of twist θ=4∘ Length L=9 m Torque T=11 KN×m Modulus of rigidity G=83 GPa
Q: Answer all questions below showing revelent calculations and working with explanation where…
A: In a system, if we consider force is applied from external sources, if that system does not move in…
Q: Q1: A square plate of weight 1500 N is hinged on its top edge about a horizontal axis. If a free…
A:
Q: A spray drier is used to dry skim milk to a final moisture content of 5.00%. The air entering the…
A:
Q: Explain and elaborate bike interior is made of? and what are the components that made the interior…
A: Given Bike interior To find Bike interior material Internal strengthen components Chemical example…
Q: For problems 3-4 determine the angle between the two vectors. 4. a-(4.0,-3), 6-27 +107-11k
A:
Q: The hydraulic cylinder imparts a constant upward velocity VA = 0.27 m/s to corner A of the…
A:
Q: (Profit) What is the impact of decreasing/increasing radius kettle (m) with regarding to heat time?…
A: In this problem, it is asking the impact of decreasing or increasing the radius of kettle with…
Q: A sky lantem which a child tied to a piece of stone on the ground at the side of a tall multi-…
A:
Q: 2. Two 10-in 15.3-lb channels are welded together as shown in the figure. Compute the value of Ix.…
A:
Q: Find the efficiency of engine Input power-1000 J Ouput power-200 J
A: Given data : Input power=1000 J Output power=200 J Required : Efficiency
Q: An ideal multi-pressure refrigeration system consists of two Compressors serving one 60 Tons…
A:
Q: Identify the advantage and a disadvantage of each tailplane; Inverted V-tail Inverted Y-tail Twin…
A: Inverted V-tail: The advantages of an inverted V-tail are: It decreases the weight of an aircraft…
Q: 1. Calculate the corrosion rate (in mm/yr and mpy) for iron in an acid if the iron loss is 0.01 gms…
A:
Q: of of H.W: Find and for the functions: 1. f(x, y) = (xy – 1)? 3. f(x, y) = (x² – 1)(y + 2) %3D
A: Use partial differential concept to solve this problem
Q: The uniform slender rod (6.7 kg) is pinned at point O. If a 7.6-g bullet shoots into the rod with a…
A: Given dataMass of the rod = M = 6.7 kgMass of the bullet = m = 7.6 x 10-3 kgSpeed of the bullet =…
Q: How many in./sec should a cylinder with 1.5-in. bore extend if it receives fluid at 1 gal/ min?
A:
Q: QU/A piston-cylinder device with a set of stops initially contains 300 g of steam at 1000 Kpa and…
A:
Q: How much heat must be supplied to water at 180 degrees celcius to make 1 kg of wet steam at 9000…
A:
Q: A gas with density 1.25kg/m and dynamic viscosity Aair force on one side of the plate is Fs = 4N.…
A:
Q: Calculate the forces, in Newtons, for the following 1. member FG 2. pin H 3. hydraulic cylinder AB…
A: Given Data : p=789 θ=37.4 a ) take a moment about H…
Q: Q3: The 1-Mg forklift is used to raise the 750- kg crate with a constant acceleration of 2 m/s².…
A:
Q: atmosphere at 14.7 lbf/in.2 and 520°R. A normal shock stands at the exit plane with Mx = 2.3. The…
A:
Q: A pipe with unequal ends is used to transport a fluid. The pipe diameter at the larger end is 0.67…
A: Use continuity and bernauli equation to solve this problem
Q: Calculate the partial pressure and gas-phase concentration (in ppm) of i-pentane in air when air at…
A:
Q: B 芝 9 KN 5m 3 m 3 m 60° In the figure shown, connections at A, B, and C are pin joints. a) Draw the…
A:
Q: Q1 / Show that velocity profile for fully developed laminar flow on an inclined plane, shown in…
A: Apply continuity equation and navier stokes equation to solve this problem
Q: Determine the x- and y-coordinates of the centroid of the shaded area shown
A:
Q: Determine the external reactions at A and F for the roof truss loaded as shown. The vertical loads…
A:
Q: For the angle θ, determine the following: (a) the lengths LBE and LAB, in m (b) the angles α and φ,…
A:
Q: Consider a 150-MW steam power plant that operates on a simple Rankine cycle. Steam enters the…
A:
Q: The strain components for a point in a body subjected to plane strain are &x= 820 μE, Ey=-360μe and…
A:
Q: The hydraulic cylinder imparts a constant upward velocity VA = 0.27 m/s to corner A of the…
A:
Q: find the volume of 2.3 kg of dry staurated steam at 11000 kpa ?.
A: Given data: Mass of steam= 2.3 kg
Q: The life of an automotive component can be modelled by a Weibull distribution. Calculate F(t)
A: Given that, The life of an automotive component can be modelled by a Weibull distribution. i Scale…
Q: normal shock wave was formed on the surface of a supersonic aircraft at a velocity of 1,600 m/s into…
A: Given , V1=1600 m/s, Find a) M₁ b) M₂ c) P₂ d) T₂ e) V₂
Q: if steam at 375 kpa , having a dryness fraction of 96% , is produced from saturated water at 375 kpa…
A: Given that: P = 375 kPa x = 0.96 state 1 = saturated liquid state 2 = liquid-vapor phase at P and x…
Q: Determine the value of displacement Force applied on wooden box=12 N Work done=24J
A: displacement = 2 m
Q: A basketball player applies a force F-89 lb to the rim at A. Determine the equivaleot force-couple…
A:
Q: 1. Determine the pressure acting on the upper and lower surfaces of a flat plate inclined at a 12°…
A:
Q: Example 3: Draw the shear and moment diagrams for the beam. 2 kN/m 50 kN • m
A: GIven
Q: Where to put marker for maximum steady state force. It is F-t graph.
A: Concept: Steady state means the graph line looks almost constant with zero slope and it is parallel…
Q: 400 lb/ft A C B - 4 ft- -4 ft- FIG. P4.7 | 10 KN t50 kN m A - 2 m 3m KIG PA 9
A:
Plz solve using FEM
Step by step
Solved in 2 steps with 2 images
- The following figure shows a 4 m bar fixed to the wall through a hinge that rotates freely, but is tied to the wall at its other end so that the system is in equilibrium. If the bar weighs 40 N and the tension in the rope is 20 N, find the angle of inclination θ that the bar makes with the x-axis.A 27‑kg sing is attached to the right end of a horizontal beam (the beam's mass m = 7.7 kg). The left end of the beam is mounted into a wall and it's right end is supported by a string which makes an angle θ = 32° with the beam, see the picture below. Find the magnitude of the tension in the string. 1. The tension in the string, T Find the reaction force exerted by the wall on the beam. 2. The x component of the wall's reaction force, Rx = 3. The y component of the wall's reaction force, Ry =The Figure shows a bar AB, of length L, which is supported at point A, against the wall andsuspended by a cable at point B, and a weight w is hung from it at end B. The weight of thebar AB and cable weight are negligible. Suppose the weight W and the angles θ1 and θ2are known. What is the direction of the reaction force R of the wall against the bar
- (VI.) In the following figure, a uniform beam of length 6.00 meters is supported by a horizontal cable and a hinge at angle 60.0 degrees, the weight of the beam and the box are 4.00x10^2 and 1.00x10^3 N respectively. Find out a) the tension in the cable, b) the forces the hinge exerts on the beam.Figure Q4(a) shows the stress-strain curves of material A and material B. A circular rod of material A (diameter 3 cm, length 10 cm) is bonded to a circular rod of material B (diameter 4 cm, length 20 cm) as shown in Figure Q4(b). a) Based on the stress-strain curves shown determine the yield stress (σy) and the elastic modulus (E) of material A and material B.b) Assuming that the bond is rigid, determine the force P required to stretch the composite rod by 0.3 mm?c) Assuming a Poisson’s ratio value of 0.33, determine the change in diameter of the rod made from material B for the same P as determined in part (b).a ladder whose length L is 12 m and whose mass is 45 kg rests against a wall. Its upper end is a distance h of 9.3 m above the ground, as in the Figure. The center of gravity of the ladder is one-third of the way up the ladder. A firefighter whose mass M is 72 kg climbs halfway up the ladder. Assume that the wall, but not the ground is frictionless. What forces are exerted on the ladder by the wall and by the ground?
- A uniform wheel of 60 cm diameter and weighing 1000N rest against a rectangular block 15 cm high lying on a horizontal plane as shown in the figure. It is to be pulled over the block by a horizontal force p applied to the end of a string wound round the circumference of the wheel. Find the force P when the wheel is just about to roll over the block ?A round bar of length L. modulus of elasticity E, and weight density tapers uniformly from a diameter of 3D at one end to a diameter 2D at the other end. If the bar is suspended vertically from the larger end, find the elongation of the bar caused by its own weight.1. A force P = 27 kN acts on a round bar with d = 50 mm, find the stress in KPa. 2. The piston rod of a steam engine is 70mm in radius and 400 mm long. The radiusof the piston is 200mm and the maximum steam pressure is 2 N/mm2. Find thecompression of the piston rod if the young's modulus for the material of the pistonrod is 250 kN/mm2.
- the bent bar AB weighing 10lb/ft is mounted as shown in figure 2 upon a carriage weighing 250 lb. The center of gravity of the carriage is at C midway between the wheels. If P=108lb and there is no frictional resistance at the wheels, find the wheel reaction R1. find the vertical component of the hinge force at A. find the horizontal concept of the hinge force at A.The mechanism shown in the figure controls the lifter. Calculate the reactions on CDE as the weight supported by the platform is W W(N)= 2800, L1(m)=0.6, L2(m)=0.6 , L3(m)=0.2 1) For three dimensional problems, please use vector notation.2) State what all the transactions you have done. All intermediate actions you have to doshow clearly.3) Please write the units next to the values you find.4) In the related questions, please draw the free body diagram.One side of a petrol drill pipe, as shown in the figure, has been lifted with the use of a crane P force. The outer diameter of the pipe is d0=114 mm and the inner diameter is di=92 mm. The total length of the pipe is L=9 m. The weight of the unit length of the pipe is q=280 N/m. For the inclination angle of the pipe axis θ=300,(a) Draw the cross-sectional diagram of the pipe,(b) Find the cross-sectional effects that pass through B and act on the cross section perpendicular to the pipe axis,(c) Find the principal normal stresses and the maximum shear stress at the B point of the pipe. Note: Maximum area static moment of the pipe section Qmax=(d03-di3)/12 (here Q,, τ=VQ/It).