Compute the midspan value of EI 8 for the beam loaded as shown in Figure. 600 N/m 3 m 2 m R₁ Figure P-612 R₂
Q: Draw free-body diagrams of members AC and BG 3 m -8 m G 2 m 15 2 m 8 2 m A 300 N 3**3**3*
A:
Q: single-cylinder recipr rpm 0: and the stroke is 32 mm the mass of the revolving parts at 16 mm…
A:
Q: A) Construct the shear and bending moment diagrams.
A: Construct the Shear and bending moment
Q: the omnidrive that was mentioned above should be an agriculture related machine
A: Omni drive is an agriculture-related machine that is used to help the farmers in their fields.…
Q: A Venturi meter has an area ratio (9:1), the larger diameter being 30 cm. During the flow the…
A: When an amount of fluid passes through through the section, then the product between the cross…
Q: At a given section a shaft is subjected to a bending stress of 30 MN/m2 and a shear stress of 60…
A: Given data bending stress = 30 Mpa shear stress = 60 Mpa find the following, a) principal stresses.…
Q: There are different types of pressures: atmospheric, barometric, gauge, absolute and vacuum…
A: There are different types of pressure 1) atmospheric pressure /barometric pressure - the pressure…
Q: Q4) Explain the alloy formation process and the different between Binary and Triple or (Ternary)…
A: Alloy : Definition of Alloy A alloy is mainly combination or mixture of metals or metal with another…
Q: A pipe with 8 cm internal diameter, 9 cm outer diameter, 2 meter long, thermal conductivity 30W/mK…
A: Given Heat transfer coefficient, h = 25 W/m2K Temperature, T1 = 80oC…
Q: A small car of mass 2000-kg reared a stalled truck of mass 3000-kg on a straight road. The two…
A: Given Mass, M = 3000 kg m = 2000 kg Initial velocity, U = 0 u…
Q: A pipe contains an oil of specific gravity 0.8. A diferenual manometer connected at the two points,…
A:
Q: 5. Determine the horizontal and vertical components of reaction at pins A and Cof the two-member…
A: According to the details provided in the question, we need to calculate Reaction ant A and C in the…
Q: A meeting hall is to be maintained at 25°C, 18Cwb. The space heat gains dropped to 20kW of which…
A: Td4=25oCTwb4=18oC Room Sensible heat Qs=16kWTd1=35oCRelative humidity of outdoor…
Q: A heat engine having an efficiency of 70% is used to drive a refrigerator having a coefficient of…
A:
Q: Q1 If your roll number is 12L3456, 12 represents your batch and 3 is the first digit of your roll…
A:
Q: can we do energy balance using the equation of first law of thermodynamics if the system is open?…
A: Given data Can we do energy balance using the equation of first law of thermodynamics if the system…
Q: Bar AB of the mechanism rotates counter-clockwise with constant angular velocity of 16 rad/s.…
A:
Q: the stress compressive. What would be the final temperature when heating starts at 20degC? The E of…
A:
Q: The last two digits in aluminum alloys * identify . O aluminum alloy aluminum content aluminum tool…
A: In alluminium alloys, major component is alluminium and other alloying element like magnesium,…
Q: At a given section a shaft is subjected to a bending stress of 30 MN/m2 and a shear stress of 60…
A: Answer: (a) The principal stresses are 76.8466 MPa and -46.8466 MPa. (b) The directions of the…
Q: PROBLEMS 5.4-5.6 Draw the shear and bending- moment diagrams for the beam and loading shown. B L…
A: draw the shear force and bending moment diagram.
Q: I want to know how to calculate how much paraffin wax is needed to give the required output force of…
A: Introduction: Paraffin wax: Paraffin wax is a white or colourless soft, solid wax. It's made up of…
Q: Pressure drop and heat transfer in suction line Decrease compression ratio & discharge temperature…
A: Answer - Option -B [ Increase compression ratio and discharge temperature ]
Q: 92 the Pressare difference AP in a life of diameter (Dand Length (L) due to viscoss flow depend the…
A: INTRODUCTION: When the viscus fluid flows in a circular conduit with a diameter and length, the…
Q: Figure 1 shows an instrument to measure revolution of a cam. i. Draw a block diagram of the…
A: Given Instrument To find Block diagram Working principle Type of instrument
Q: Q.3 A Carnot cycle heat pump operates with R134a as the refrigerant. The condenser and evaporator…
A:
Q: A pipe contains an oil of specific gravity 0.8. A differenti- manometer connected at the two points,…
A:
Q: Multiple Evaporator Systems it may be required to have different temperature maintained at single…
A: Option ( B) is correct Have different temperature maintained at various zones. Because multiple…
Q: (a) Using sketches, describe the carburisation process for steel components. (b) The yield stress…
A:
Q: A refrigerant of a certain thermodynamic cycle at a point during the evaporation process where its…
A: given data :- dryness friction = 0.5 latent heat = 211.3 kJ/kg find the enthalpy at this point.
Q: HE GEAR DRIVE C Figure 1 Example of a simple spur gear train with an ear train with an idler must…
A:
Q: 30° 1000 mm A Area 30 mm 20 mm In Figure 1, the normal stress on the cross- sectional area is (in…
A:
Q: The engine generates electrical power at 1MW. At 500°C a temperature of 1.5MW heat is sent from the…
A: we will use law of conservation of energy and entropy law
Q: An area-variation-based capacitive accelerometer, as shown in Figure below, has the following…
A:
Q: a. The Net Present Worth of Alternative A is = $ Blank 1 b. The Net Present Worth of Alternative B…
A:
Q: Consider an air-standard Otto cycle that has a compression ratio of 9.0 and a heat addition of 870…
A:
Q: In general, copper has . . tensile strength. medium O high O low O none of them
A: ◆ In general, copper has high tensile strength. ◆ The correct answer is option (b).
Q: hat is the flexural stress of a 5mm diameter cylindrical ceramic specimen pjected to 275N load in a…
A: Ans- 252 MPa Option first is correct.
Q: A small car of mass 2000-kg reared a stalled truck of mass 3000-kg on a straight road. The two…
A:
Q: Determine the x- and y-coordinates of the centroid of the shaded area. Assume a = 1.6b, c = 1.8b,…
A:
Q: A turbine passes 67.5 kg/h of steam at 200 km/h at 8 MPa and leaves at 0.5 MPa as wet steam with a…
A:
Q: A smaller power plant produces 25 kg/s steam at 3 MPa, 600o C in the boiler. It cools the condenser…
A:
Q: One end of a spring is attached to a solid wall while the other end just reaches to the edge of a…
A:
Q: P = 400 kN 30° 1000 mm A Area 30 mm 20 mm الاختیارات 400 346.4- 200 O 230-
A: Given data force = 400KN find the normal force component at point A.
Q: A cantilever beam is subjected to an inclined force (P) as shown in Figure 1, the equilibrium normal…
A:
Q: PROBLEM S5.3 A thin spherical vessel 1 m in diameter and 12 mm thick is filled with water. More…
A: Given data:
Q: Which of the following refrigerants are suggested as replacements for R22 in large air conditioning…
A: Answer- -R410A
Q: Determine the rate of flow of water through a pipe of diameter 20 cm and length 50 m when one end of…
A: given data diameter = 20cm length = 50 m f= 0.009 height of water in the tank = 4 m find the flow…
Q: The 50-lb load is hoisted by the pulley system and motor M. If the motor exerts a constant force of…
A:
Q: Water flow at a 250mm diameter horizontal pipe. The friction factor is 0.023. If the pressure at the…
A:
Step by step
Solved in 2 steps with 2 images
- Figure (a) shows the cross-sectional dimensions for the structural steel section known as C1020 (channel with a nominal depth of 10 in., weighing 201b/ft). The American Institute of Steel Construction Structural Steel Handbook lists the following properties for the cross section: A=5.88in.2,Ix=78.9in.4, and Iy=2.81in.4. If two of these channels are welded together as shown in Fig. (b), find Ix and Iy for the resulting cross section.A frame ABCD is constructed of steel wide-flange members (W8 x 21; E = 30 x ID6 psi) and subjected to triangularly distributed loads of maximum intensity q0acting along the vertical members (see figure). The distance between supports is L = 20 ft and the height of the frame is h = 4 ft. The members are rigidly connected at B and C. Calculate the intensity of load q0 required to produce a maximum bending moment of 80 kip-in. in the horizontal member BC. If the load q0 is reduced to one-half of the value calculated in part (a), what is the maximum bending moment in member BC? What is the ratio of this moment to the moment of 80 kip-in. in part (a)?A heavy object of weight W is dropped onto the midpoint of a simple beam AB from a height h (see figure). Obtain a formula for the maximum bending stress ^ma* due to tne filing weight in terms of h, st, and 5st, where it is the maximum bending stress and Sstis the deflection at the midpoint when the weight W acts on the beam as a statically applied load. Plot a graph of the ratio o"max/ö"it (that is, the ratio of the dynamic stress to the static stress) versus the ratio iifS^r(Let h/S^ vary from 0 to 10.)
- A fixed-end b earn is subjected to a point load at mid-span. The beam has a rectangular cross section (assume that the h/b ratio is 2) and is made of wood (E = 11GPa). Find height h of the cross section if the maximum displacement of the beam is 2 mm. Calculate the displacement of the beam at the inflection points.A cantilever beam has two triangular loads as shown in the figure. Find an expression for beam deflection Scusing Superposition. Find the required magnitude of load intensity q2in terms of q0so that the deflection at C is zero. Find an expression for the deflection at C if both load intensities, qxand q2, are equal to q0.Determine the plastic modulus Z and shape factor/for a W 12 x 14 wide-flange beam. Obtain the cross-sectional dimensions and section modulus of the beam from Table F-l(a) in Appendix F.
- A weight W = 4000 lb falls through a height h = 0.5 in, onto the midpoint of a simple beam of length L = 10 ft (see figure). Assuming that the allowable bending stress in the beam is = 18,000 psi and E = 30 x 10* psi, select the lightest wide-flange beam listed in Table F-l(a) in Appendix F that will be satisfactory.The deflection curve for a simple beam AB (sec figure) is given by v=q0L44EIsinxL Describe the load acting on the beam. Deter mine the reactions RAand RBat the supports, Determine the maximum bending moment Mmax.-10 The simple beam AB shown in the figure supports two equal concentrated loads P: one acting downward and the other upward. Determine the angle of rotation A at the left-hand end, the deflection 1under the downward load, and the deflection 2 at the midpoint of the beam.
- A symmetric beam A BCD with overhangs at both ends supports a uniform load of intensity q (see figure). Determine the deflection SDat the end of the overhang. (Obtain the solution by using the modified form of Castiglianos theorem.)A simple beam ABC DE supports a uniform load of intensity iy (see figure). The moment of inertia in the central part of the beam (BCD) is twice the moment of inertia in the end parts (AB and DE). Find the deflection Scat the midpoint C of the beam. (Obtain the solution by using the modified form of Castigliano's theorem.)An overhanging beam ABC is subjected to a couple MAat the free end (see figure). The lengths of the overhang and the main span are a and L, respectively. Determine the angle of rotation 04and deflection S4at end A. (Obtain the solution by using the modified form of Castigliano's theorem.)