The set up shown in the figure is supported by a pin at point A. Determine the tension in the cable AB and the reaction at point A. Use you're the last two digits of your ID for the load of the cylinder in 87 N. 4m -3 m -2 m
Q: 6.69 Water flows steadily through the reducing elbow shown. The elbow is smooth and short, and the…
A:
Q: What does SPC stand for?
A: SPC stands for statistical process control, which is the application of statistical instruments and…
Q: a) What is the importance of SFD and BMDs for structural engineers? b) For the beam and loading…
A:
Q: Determine the force in each member of the loaded truss. All triangles are equilateral with side…
A:
Q: Given a ttt diagram of steel 1040. For each section determine the final steel structure. Mark the…
A:
Q: Two cars which are separated by 4.04 km are moving on th 48.24 km/hr, while the second car is moving…
A: calculated how many minutes will it take for the second car to overtake the first car.
Q: Name the three drive configurations that a gearsetcan transfer torque.
A: In this problem, it is asking about the three names of drive configurations of gear set that can…
Q: Given the truss below with different distributed external loads affecting it, solve the reaction…
A: Draw the free-body diagram of the system. Apply force equilibrium in horizontal direction.…
Q: Locate the centroid of the plane area shown.
A:
Q: Liquid in a closed container with ₁-1000 cm³ is under pressure p₁-1×10 N/m². Volume of the liquid is…
A:
Q: Find the coordinates of the centroid (x, y) of the given shaded shape.
A:
Q: Stainless steel tube is used to transport pharmaceutical liquids, it has an inner diameter of 40 mm…
A:
Q: In an experiment on standing waves, a string 65 cm long is attached to the prong of an electrically…
A: Given data: L=65 cmf=60 Hzm=0.086 kgn=4 Need to determine the tension.
Q: 75 mm 75 mm 75 mm- X
A:
Q: A diver 50 m deep in 8°C fresh water exhales a 1.2 cm diameter bubble which rises to the surface of…
A: given; depth(h)=50mdiameter(d1)=1.2cm =1.2*10-2mwhen diameter(d2)=2.2cm…
Q: Link AB is driven with the angular velocity shown and rotates about point A. Link DCE is free to…
A:
Q: Which of the following statement is correct? O Discontinuities can propagate and become defects. O…
A: ◆ The discontinuity is the imperfection on the physical surface of the objects. The examples of…
Q: List three benefits of holding a workpiece between centers
A: A work holding technique is to hold the objects between the centers. One of the centers is mounted…
Q: A belt 200 mm wide and 7 mm thick drives a pulley at belt speed of 25 m/s. The density of the belt…
A: Given data b=200 mmt=7 mmv=25 m/secρ=980 kg/m3μ=0.23σ=1.8 MPa Here, b is the width and t is the…
Q: A cylinder weighing 400 lb is held against a smooth incline by means of the weightless rod AB in…
A: For solution refer below images.
Q: For the system shown, assume m₁ = 1.5m₂ and ₁ = 1.5₂ where it is assumed that m₂ = m and ₂ = . Find…
A:
Q: Inside a 148 mm x 340 mm rectangular duct, air at 26 N/s, 22 deg C, and 108 kPa flows. Solve for the…
A: Given data: T1=22°CA=148 mm x 340 mm=0.05032 m2P=108 kPam˙=26 N/s=269.81 kg/s=2.65 kg/sR = 28.7 m/K…
Q: Determine the COP (coefficient of performance) of a heat pump if the rate of heat rejected is 360…
A: Given, Rate of heat rejection = QR = 360 kJ/min Power supplied = W = 2 kW Rate of heat rejection…
Q: Find the displacement of object to be done so that work done is 433 J if force applied 22 N
A:
Q: Required information A 02-series single-row deep-groove ball bearing is to be selected from Table…
A:
Q: Q4: A centrifugal pump running at 900 rpm and delivering 0.3 m³/s of water against a head of 25 m.…
A:
Q: Task 2 A heat exchanger that is used for cooling lubricating oil is comprised of a thin-walled inner…
A:
Q: Determine the force in each member of the loaded truss. The force is positive if in tension,…
A:
Q: Apply the steady flow energy equation to nozzle, compressor, turbine, boiler, and mixing chamber.
A: During steady flow-process, the total energy of a control volume remain constant i.e., ECV=constant…
Q: Given: • Mass of particle 1 = 0.35 kg, starting velocity of particle 1 = 2.1 m/s Mass of particle 2…
A:
Q: Part of a control linkage for an airplane consists of a rigid member CB and a flexible cable AB.…
A:
Q: Determine the force in member CG. The force is positive if in tension, negative if in compression.…
A:
Q: Given: Qref Tu = D Te Refrigerant Required: сор = → mv main E.V. I TOR 30°C -20°C Flash tan…
A:
Q: 3. The water tank of a city is going to be drained for contamination purposes, calculate the maximum…
A:
Q: Find the moments of inertia of the shaded shape about the given centroidal x-axis (Ix) and…
A:
Q: % -8kN v0.36 kN - B POI tam tantam tata 3m 4m 2 74,36 kN Number 50 kN 0.4m 0.1m IL-POI H 0.07m Fill…
A:
Q: Your answer has been saved. See score details after the due date. The expression used to solve for…
A:
Q: QUESTION 4 The tank, shown in figure 2, contains oil and water. The width of the tank is 4 m. The…
A: Given data: ◆ The width of the tank: b = 4 m ◆ The density of oil: ρoil = 850 kg/m3 ◆ The density of…
Q: Process used to improve fatigue resistance of the metal by setting up compressive stresses in its…
A: Cold Peening or Shot Peening: It is a cold work process used to prevent parts from fatigue and…
Q: A rubber ball (4 kg) falls from a height of 50 m and collides elastically with the floor. What is…
A:
Q: Determine the maximum and minimum stress intensities set
A:
Q: Determine maximum shear stress Maximum principal stress-44 MPa Minimum principal stress=38 Mpa
A: Given data : Maximum principal stress σ1=44 MPa Minimum principal stress σ2=38 MPa Required :…
Q: An of at least 100 days at 500°C, computer level. (refer Fig below). Larsen - Miller C=Constant…
A: Rupture Lifetime, tr = 100 days = 100 × 24hrs = 2400 hr Temperature, T = 500°C = 500 + 273 = 773 K…
Q: in the transfer function of the system. θ(s)/F(s) =? Show all inter
A: Distance, L1 and L3 To-Determine:- a. Free Body Diagram b. Transfer function θsFs
Q: A mass of gas is compressed in a quasi-static process from 80 kPa, 0.1 m³ to 0.4 MPa, 0.03 m³.…
A: From the data given in question, Initial pressure = P1 = 80 kPa Initial volume = v1 = 0.1 m3 Final…
Q: Determine the moments of the shaded area about the x- and y-axes
A:
Q: Determine the COP (coefficient of performance) of a heat pump if the rate of heat rejected is 360…
A: Given: Heat Pump Rate of heat rejected = 360 kJ/min = 36060 = 6 kW Power Supplied = 2 kW
Q: In what units are feed rates measured for lathe operations?
A: Feed rate is the measurement of the spindle's travel distance per rotation. The feed rate is…
Q: Four people are attempting to move a stage platform across the floor. If they exert the horizontal…
A:
Q: Which of the following would not increase the rate of heat transferred from a heater pipe? A.…
A: GIVEN DATA- A MCQ QUESTION GIVEN ABOUT HEAT TRANSFER WE HAVE TO CHOOSE CORRECT OPTION
Step by step
Solved in 2 steps with 1 images
- A crane boom of mass 450 leg with its center of mass at C is stabilized by two cables AQ and BQ (Ae= 304 mm2 for each cable) as shown in the figure. A load P = 20 KN is supported at point D. The crane boom lies in the y-z plane. (a) Find the tension forces in each cable: TAQand TBQ(kN}. Neglect the mass of the cables, but include the mass of the boom in addition to load P. (b) Find the average stress (s) in each cable.A 150-lb rigid bar AB. with friction less rollers al each end. is held in the position shown in the figure by a continuous cable CAD. The cable is pinned at C and D and runs over a pulley at A. (a) Find reactions at supports A and B. (b) Find the force in the cable.Two separate cables AC and BC support a sign structure of weight W = 1575 lb attached to a building. The sign is also supported by a pin support at O and a lateral restraint in the '-direction at D. (a) Find the tension in each cable. Neglect the mass of the cables. (b) Find the average stress in each cable if the area of each cable is Ae= 0.471 in2.
- The boom AC in the figure rests in a ball and socket joint at A and is held in equilibrium by the cables BE and CD. The load applied at C. Determine the coordinates of D in the YZ plane so that the force in CD will be a minimum. Neglect the weight of the boom and cables. Answers: y = 16ft ; z = -34.7ft ( Please i need the solution)Determine the tensions T1 and T2 in the strings required to maintain equilibrium for the suspended object weighs W = 38.7N shown in the figure. Take, α = 29.8° & β = 50.2°. The value of Tension, T1 (N) = The value of Tension, T2 (N) =Determine the tensions T1 and T2 in the strings required to maintain equilibrium for the suspended object weighs W = 48.7N shown in the figure. Take, α = 29.4° & β = 47.5°. a) The value of θ1 (Degree) = b) The value of θ2 (Degree) = c) The value of θ3 (Degree) = d) The value of Tension, T1 (N) = e) The value of Tension, T2 (N) =
- Given the Frictionless Frame as shown below with pin connection atPoint A and Point C.Determine the following if the uniform load is ‘w’:a.) The Internal Reaction at Point A in terms of w.b.) The External Reaction at Point B in terms of w.c.) The Internal Reaction at Point C in terms of w.d.) The External Reaction at Point D in terms of w. NOTE: 3 DECIMAL PLACESA load of 6kN is supported as shown in the figure. The weight of the pulley is 2kN. Neglect the weight of the bars. Support A and B are hinge connections. gives the reaction at D.Determine the tensions T1 and T2 in the strings required to maintain equilibrium for the suspended object weighs W = 48.7N shown in the figure. Take, α = 29.4° & β = 47.5°. a) The value of Tension, T1 (N) = b) The value of Tension, T2 (N) =
- This structure is supported by a roller joint on the left and a pin joint on the top. Two loads, P have similar magnitudes of P = 650 N and the angle θ = 40°. The length L of both members is 1.5 m. The vertical load acts at the midpoint of the horizontal member. Solve for the reaction forces at the roller and pinned joints.The boom AC in the figure rests in a ball and socket joint at A and is held in equilibrium by the cables BE and CD. The load applied at C. Determine the coordinates of D in the YZ plane so that the force in CD will be a minimum. Neglect the weight of the boom and cables. Answers: y = 16 ft; z = -34.7 ft Note:The reaction at ball and socket joint is always represented by the x, y and z componentsThe boom AC in the figure rests in a ball and socket joint at A and is held in equilibrium by the cables BE and CD. The load applied at C. Determine the coordinates of D in the YZ plane so that the force in CD will be a minimum. Neglect the weight of the boom and cables. Answers: y = 16 ft; z = -34.7 ft Note: The reaction at ball and socket joint is always represented by the x, y and z components.