Part B. The magnitude of the maximum bending stress in the beam. f) Find the maximum bending moment in the beam. Enter your answer in kNm to two decimal places.
Q: There are variety of errors that might affect the attitude motion of a spacecraft. Discuss what type…
A: Errors in spacecraft attitude control systems can arise from various sources, impacting the…
Q: The beam shown in Fig. 7-10a is made from two boards. Draw the shear and moment diagrams for the…
A: Given:To find:
Q: Water (p= 1000- -) flows through the elbow below. The diameter of both the inlet mª and outlet is…
A:
Q: A water tank open to the atmosphere has a hole in the side such that water shoots out horizontally…
A:
Q: A bar of steel has the minimum properties Se= 40 kpsi, Sy = 60 kpsi, and Sut = 80 kpsi. The bar is…
A: Given:The endurance stress is The yield stress is The ultimate stress is The steady torsion stress…
Q: By analyzing the graph shown above, state your statement of why the t₂, t4 and t are effecting the…
A: Given:
Q: Problem 1: You are working in a consulting company that does a lot of hand calculations for designs…
A: Into a New Era: Computer-Based Modeling Replaces Hand CalculationsThe business's reliance on manual…
Q: An access panel with two circular cutouts is shown. For a 170 mm, b= 200 mm, h=260 mm and d= 60 mm,…
A: An access panel with two circular cutouts is shown.For a = 170 mm, b = 200 mm, h=260 mm and d = 60…
Q: (Modeling/similarity) The pressure drop per unit length in a 0.286-in.-diameter gasoline fuel line…
A: From given data, similitude analysis has to be performed for internal flow (that is flow through…
Q: 5. What does the thickness of an aluminum alloy casting (length = 12 in. and width = 8 in.) have to…
A:
Q: 10-91. The concrete shape is formed by rotating the shaded area about the y axis. Determine the…
A:
Q: L Calculate the support reactions at A and B for the beam subjected to the two linearly distributed…
A:
Q: 4. In an orthogonal cutting operation in tuning, the cutting force and thrust force have been…
A:
Q: Two cylinders A and B are actuated by solenoid activated spring-return 4/2 valves and controlled by…
A:
Q: An aircraft air conditioner is to be optimized to achieve minimum first cost. During the day the…
A:
Q: The wagon and its contents weigh a total of W KN with the center of gravity at point G. Given the…
A:
Q: Given the multiview projection of the solid, draw the isometric view.
A: Given:Draw:The isometric view from the multiview projection of the solid.
Q: 38. The smooth rod is free to rotate in a horizontal plane on the vertical shaft. The 4-lb ball has…
A: Assumptiom: The rod is massless and frictionless, hence the ball will only experience centrifugal…
Q: 1. An Atwood machine (shown below) consists of a pulley with two weights W₁ = 100 N and W₂ = 200 N…
A:
Q: (Drag) A 300-N rock (roughly spherical in shape) of specific gravity SG-1.93 falls at a constant…
A: Given,
Q: The gravitational constant g is 9.807 m/s² at sea level, but it decreases as you go up in elevation.…
A: The expression for g is given as,
Q: -:) To replace the regular light bulb with a high-efficiency light bulb, what is the upper price…
A: Unit cost of electricity, Type of light bulbCost ($/piece)Power (W)Lifetime (hours)Regular…
Q: Gears A and B of mass 15 kg and 56 kg have radii of gyration about their respective mass centers of…
A:
Q: Part C-Maximum deflection What is the maximum deflection of the beam? Express your answer in terms…
A: For the solution refer below images.
Q: 3. A refrigerator uses refrigerant-134a as its working fluid and operates on the ideal vapor-…
A: Given : The evaporator temperature is TThe pressure at the con dens or is the T-s diagram is,
Q: The diameter of one arm of a U-tube is 12 mm while the other arm is large. If the U-tube contains…
A: Given,Diameter of one arm of U tube is 12 mmsurface tension and density of water at 20°C are σs =…
Q: The pipe ABCDE is supported by ball-and-socket joints at A and D and by cable ECF that passes…
A: Pipe is supported by ball and socket joints at A and D.Since ball and socket joints only restrict…
Q: Please show how you solve the equation in step
A: The objective of this question is to determine the extension of a composite pipe due to an applied…
Q: The equation of motion for a damped multidegree of freedom system is given by Where [m] = [m]{x} +…
A:
Q: A 2 kN/m 1.5 m X B 1.5 m * 3 kN m 1.5 m Figure 1. Beam ABC and its loads. 1.5 m E 200 GPa and I = 55…
A: The modulus of elasticity is The moment of inertia is
Q: In a single degree of damped vibration system a suspended mass of 8kg makes 30 oscillations in 18…
A:
Q: *8-34. Blocks A and B weigh 50 lb and 30 lb, respectively. Using the coefficients of static friction…
A: Weight of the Block A= 50 lbWeight of Block B= 30 lbdrawing the free-body diagram of block A and B…
Q: ness of 20 mm and the force P = 3 kN acts along the centerline of this thickness such that d = 150…
A: The area and the moment of inertia is-The distance of the top and bottom fiber from the centroidal…
Q: 4. The rod has a diameter of 40 mm. If it is subjected to the force system shown, determine the…
A:
Q: 6-101. If a clamping force of 300 N is required at A, determine the amount of force F that must be…
A: The clamping force of 300 N is required at A.To Find:The amount of force F that must be applied to…
Q: From the graph find stress? and yong modulus,E?
A: The given graph is drawn between stress and strain.Which is for initial part, a straight line…
Q: A sharp knife can cut because the pressure increases when a) the surface of contact is small b) the…
A:
Q: The 10-1b box is projected up a smooth vertical circular Track as shown. When the box reaches 045",…
A: Given:To find:A) Sketch a Free body diagram and a kinetic diagram of the box at this instant.B)…
Q: *Test your understanding start with E = -ħw to find TDSE
A:
Q: 0.056 kg of water is boiled per second at sea level in a 47.72-cm diameter stainless steel pan…
A:
Q: A ski resort chair lift has towers spaced 44 m horizontaly appart. The upper tower is 15 m higher…
A: The mass of each chair is the horizontal space is the upper tower height is The chair is…
Q: em 158. The 20 kg wheel has an eccentric mass which places the center of mass G a distance r ̅=70 mm…
A:
Q: What is the cause of surface tension? Multiple Choice O Attractive forces between the atoms O…
A: Surface tension: it is a physical property of liquids.It is defined as the force per unit length…
Q: Determine the power that the fan adds to the air.
A: The discharge of air in the pipe is:The total loss coefficient due to four elbows is:According to…
Q: If a pool is irregularly shaped and a person being assessed has a weight mg= 800 N but weighs Fn=…
A: Since you have posted a question with multiple sub parts, we will provide the solution only to the…
Q: centroid of the shadea area. b Determine the coordinates of the 65 Parabolic a
A:
Q: using the ideal gas model, determine the sonic velocity of argon at 300k
A:
Q: The man has a mass, m = 40 kg. He plans to scale the vertical crevice using the method shown. If the…
A:
Q: How is the mohrs circle plotted? what values were plotted
A:
Q: 10. The wheel shown supports a load of 500 lb. The hub fits loosely over an axle of diameter 1.3 in…
A: The wheel shown supports a load of 500 lb.The hub fits loosely over an axle of diameter 1.3 in and…
Part B. The magnitude of the maximum bending stress in the beam.
Find the maximum bending moment in the beam. Enter your answer in kNm to two decimal places.
Step by step
Solved in 4 steps with 18 images
- Two pipe columns (AB, FC) are pin-connected to a rigid beam (BCD), as shown in the figure. Each pipe column has a modulus of E, but heights (L1or L2) and outer diameters (d1or different for each column. Assume the inner diameter of each column is 3/4 of outer diameter. Uniformly distributed downward load q = 2PIL is applied over a distance of 3L/4 along BC, and concentrated load PIA is applied downward at D. (a) Derive a formula for the displacementAn L-shaped reinforced concrete slab 12 Ft X 12 ft, with a 6 Ft X 6 ft cut-out and thickness t = 9.0 in, is lifted by three cables attached at O, B, and D, as shown in the figure. The cables are are combined at point Q, which is 7.0 Ft above the top of the slab and directly above the center of mass at C. Each cable has an effective cross-sectional area of Ae= 0.12 in2. (a) Find the tensile force Tr(i = 1, 2, 3) in each cable due to the weight W of the concrete slab (ignore weight of cables). (b) Find the average stress ov in each cable. (See Table I-1 in Appendix I for the weight density of reinforced concrete.) (c) Add cable AQ so that OQA is one continuous cable, with each segment having Force T, which is connected to cables BQ and DQ at point Q. Repeat parts (a) and (b). Hini: There are now three Forced equilibrium equations and one constrain equation, T1= T4.: A hollow, pressurized sphere having a radius r = 4.8 in, and wall thickness t = 0.4 in. is lowered into a lake (see figure). The compressed air in the tank is at a pressure of 24 psi (gage pressure when the tank: is out of the water). At what depth D0will the wall of the tank be subjected to a compressive stress of 90 psi?
- A steel riser pipe hangs from a drill rig located offshore in deep water (see figure). (a) What is the greatest length (meters) it can have without breaking if the pipe is suspended in the air and the ultimate strength (or breaking strength) is 550 MPa? (b) If the same riser pipe hangs from a drill rig at sea, what is the greatest length? (Obtain the weight densities of steel and sea water from Table M, Appendix I. Neglect the effect of buoyant foam casings on the pipe.)A uniformly tapered lube AB of circular cross section and length L is shown in the figure. The average diameters at the ends are dAand d£= 2d t. Assume E is constant. Find the elongation S of the tube when it is subjected to loads P acting at the ends. Use the following numerical data:^ = 35 mm, L = WO mm, E = 2.1 GPa. and P = 25 tN. Consider the following cases. (a) A hole of constant diameter dAis drilled from B toward A to form a hollow section of length x - U2. (b) A hole of variable diameter a\.x) is drilled, from B toward A to form a hollow section of length x = L/2 and constant thickness t = dA/20.A cantilever beam(Z, = 6 ft) with a rectangular cross section (/> = 3.5 in., h = 12 in.) supports an upward load P = 35 kips at its free end. (a) Find the state of stress ((7T, o^., and r in ksi) on a plane-stress element at L/2 that is i/ = 8 in. up from the bottom of the beam. Find the principal normal stresses and maximum shear stress. Show these stresses on sketches of properly oriented elements. (b) Repeat part (a) if an axial compressive centroidal load N = 40 kips is added at B
- A cylindrical pressure vessel having a radius r = 14 in. and wall thickness t = 0,5 in, is subjected to internal pressure p = 375 psi, In addition, a torque T = 90 kip-ft acts at each end of the cylinder (see figure), (a) Determine the maximum tensile stress ctniXand the maximum in-plane shear stress Tmjv in the wall of the cylinder. (b) If the allowable in-plane shear stress is 4.5 ksi, what is the maximum allowable torque T\ (c) If 7 = 150 kip-ft and allowable in-plane shear and allowable normal stresses are 4.5 ksi and 11.5 ksi, respectively, what is the minimum required wall thicknessA non prism elk- bar ABC made up of segments AB(length £,, cross-sectional area .Inland BC (length i-,, cross-sectional area A2) is fixed at end A and free al end C (see figure). The modulus of elasticity of the bar is E. A small gap of d intension s exists between the end of the bar and an elastic spring of length Lj and spring constant k3. If bar ABC only (not tin? spring} is subjected to temperature increase A3", determine the following. (a) Write an expression for reaction forces R^ and RDif the elongation of /I BC exceeds gap length s. (b) Find expressions for the displacements of points B and C if the elongation of ABC exceeds gap length s.A simple beam that is 18 ft long supports a uniform load of intensity q. The beam is constructed of two C8 x 11.5 sections (channel sections or C-shapes) on either side of a 4 × 8 (actual dimensions) wood beam (see the cross section shown in the figure part a). The modulus of elasticity of the steel (E; = 30,000 ksi) is 20 times that of the wood (Ew). (a) If the allowable stresses in the steel and wood are 12,000 psi and 900 psi, respectively, what is the allowable load qmax Note: Disregard the weight of the beam, and see Table F-3(a) of Appendix F for the dimensions and properties of the C-shape beam. (b) If the beam is rotated 90° to bend about its v axis (see figure part b) and uniform load q = 250 lb/ft is applied, find the maximum stresses trs and crw in the steel and wood, respectively Include the weight of the beam. (Assume weight densities of 35 lb/ft3 and 490 lb/ft3 for the wood and steel, respectively.)
- Solve the preceding problem for a W 250 × 89 steel column having a length L = 10 m. Let E = 200 GPa.A flanged wooden shape is used to support the loads shown on the beam. The dimensions of the shape are shown in the second figure. Assume LAB = 9 ft, LBC = 3 ft, LCD = 4 ft, LDE = 4 ft, PC = 2150 lb, PE = 2260 lb, wAB = 650 lb/ft, b1 = 11 in., b2 = 2 in., b3 = 7 in., d1 = 2 in., d2 = 5 in., d3 = 2 in. Consider the entire 20-ft length of the beam and determine:(a) the maximum tension bending stress σT at any location along the beam, and(b) the maximum compression bending stress σC at any location along the beam.Question 1) In the beam whose loading condition is given in the figure, F force F= 79 kN, w1 distributed load w1= 44 kN/m, w2 distributed load w2= 55 kN/m, θ angle θ= 49° and L length L= 9 m given. According to this;Question 1-A) Find the support response in the y direction (By) at point B. (Enter your result without writing kN units.)Question 1-B) Find the support response in the y direction (Ay) at point A. (Enter your result without writing kN units.)Question 1-C) Find the support response in the x direction (Ax) at point A. (Enter your result without writing kN units.)