Draw the shear-force and bending-momentdiagrams for a cantilever beam AB carrying a uniformload of intensity q over one-half of its length (see figure).
Q: Write the shear and moment equations (not simplified and simplified) at each segment of the beam sho...
A:
Q: A hollow circular tube having an inside diameter of 10.0 in. and a wall thickness of 1.0 in. (see fi...
A: Given Torque, T = 1200 kip-in Thickness, t = 1 in Inside Diameter, D = 10 in Outer diameter, d = 1...
Q: A power plant delivering 900 MWe has an efficiency of 30% with 15 percent of the waste heat being re...
A:
Q: A crane with a mass of 1200 kg is lifting a 2100 kg crate. There is a pin at A and a roller at B. Th...
A: Given data as per question Mass of crance =1200 kg Mass to be lifted =2100 kg considering BD There ...
Q: Determine the magnitude of the resultant force at A. F=840 N 6 m Fe 420 N 3 m B. 2 m 3 m 2 m E
A:
Q: 1)-A rectangular box of cross-sectional area A and length L, is initially at temperature To. At time...
A: Given: Area of the box=A Length of the box=L And initially the complete box is at temperature=To In ...
Q: For the overhanging rolled steel beam with an American standard flange cross- section, identify whic...
A:
Q: the gusset plate is subjected to the forces of four members. Determine the force in member B and its...
A:
Q: e acceleration of ассe
A: To find Acceleration of the object
Q: m3 of nitrogen contained in a cylinder behind a piston is initially at 1.2 bar and 15°C. The gas is ...
A: Given:Volume of nitrogen, V=0.05 m3initial pressure of nitrogen, P1=1.2 barinitial temperature of ni...
Q: Q1: Determine the magnitude of the force on the pin at A for the boom shown in Fig. 1. Neglect the s...
A: Dear student, we are suppose to solve only one question. Please post other question as a separate qu...
Q: F = 300 N F; = 250 N 309 60 2 m 3 m 4 m F= 500 N
A: GIVEN DATA- A SYSTEM OF FORCES GIVEN WE HAVE TO FIND MOMENT ABOUT POINT O
Q: The 10-mm-thick bottom of a 200-mm-diameter pan may be made from aluminum (k = 240 W/m-K) or copper ...
A:
Q: For the shown static system, determine the minimum diameter of cable BD to withstand the shown load,...
A:
Q: A wind tunnel has an incompressible flow of air, flowing horizontally from an inlet section, 7 times...
A: Answer: The change in height of mercury is 22.75625 mm.
Q: An orifice of 8 cm diameter is fitted in a 20 cm diameter pipe that carries oil of specific gravity ...
A:
Q: A gear reduction unit uses the countershaft shown in the figure. Gear A receives power from another ...
A: Given data, Force applied on gear A, FA = 11000 N Pressure angle of applied force in gear A, ϕA=20° ...
Q: A fluid undergoes a reversible adiabatic compression process from 8 bar, 0.3 m3 to 0.08m3 according ...
A:
Q: A simple ideal Rankine cycle which uses water as the working fluid operates its condenser at 40C and...
A:
Q: The lap joint is fastened by 20 mm rivets placed alongside each other as shown along the length of t...
A:
Q: the reaction forces at
A: To find Reaction forces at Point A & D
Q: An irreversible Stirling cycle containing 5.0 mol of a diatomic ideal gas goes through the following...
A: a) P-V diagram of the processes is The P-V diagram of the complete Stirling cycle is 1) Process a-b...
Q: A steel punch consists of two shafts: uppershaft and lower shaft. Assume that the upper shafthas a d...
A: The shearing stress in the plate can be calculated using the formula given below as- τ=Pπdt where, P...
Q: 25 °C = 997 kg/m3 ero for sensible heat, g
A: we will use Priestly taylor method evaporation E =1.26∆∆+rRnet-sλ∆∆+ r= 0.676Rnet =200 w/m2
Q: From the bending diagram, given the value of moment is 4000 Ib.ft. The value (C) from the neutral ax...
A:
Q: Q.5/ The uniform crate shown has a mass of 20kg. if a force P = 80N is applied to the crate, determi...
A:
Q: A closed system having a mass of 50 kg has an initial velocity of 10 m/s. Subsequently its velocity ...
A: A closed system with a mass of 50 kg has an initial velocity of 10 m/s, as we know.Its velocity incr...
Q: Determine the reaction components at the hinge support at Band the roller support at A due to the lo...
A:
Q: Made of steel alloy whose engineering tensile curve is given in the figure below, 10 mm diameter and...
A: a.From stress-strain cutve: The yield strength (0.2% limit)=400MPa b. Maximum load =Maximum stress×c...
Q: Calculate the magnitude of the tension T and the angle 0 for which the eye bolt will be under a resu...
A:
Q: Q. Define : Mechanical efficiency.
A: Definition of Mechanical efficiency: The ratio of power available at the impeller i.e. power deliver...
Q: 1. What is the type of robot?
A: ***As per our company policy we are supposed to do only 1 question if you need the rest please rep...
Q: The L-shaped rod AOCD has an 80 kg mass hanging from it at B. The rod is leaning against a smooth wa...
A:
Q: Determine the volumetric displacement of a V6 four stroke engine with a bore and stroke of 86 x 86 m...
A: Given data V6 Engine - Six cylinder engineBore = 86 mmStroke = 86 mmRunning speed = 4200 rpm
Q: A two stage air compressor has a suction condition of 100 kpa, 30 o C and has a capacity of 3 m3 /s....
A:
Q: SET B: A Carnot engine absorbed 50 kJ of heat at 500K and exhausted 5000J of heat at the end of the ...
A: Heat absorbed by the heat engine, QH=50 kJ=50*103 JTemperature of heat source, TH=500 KHeat exhauste...
Q: Consider a solid aluminum shaft perfectly bonded to a brass cylinder subjected to two concentrated t...
A:
Q: A medium force fit on a 75 mm shaft requires a hole tolerance and shaft tolerance each equal to 0.22...
A:
Q: In a belt transmission dynamometer, the driving pulley rotates at 400 rpm. The distance between the ...
A: Given Data, Speed of pulley, N=400 rpm Distance between center of pulley to dead mass, L=820 mm=0.82...
Q: 2. Expansion of the steam in a cylinder follows the law pv1.1 = constant. The state of steam at the ...
A:
Q: 10. How far below the water surface is it necessary to immerse a vertical plane surface, 1m square, ...
A: GIVEN DATA- SQUARE PLATE OF SIZE 1m DISTANCE BETWEEN C.G. AND CENTRE OF PRESSURE =2.50cm
Q: 2. Express the force as a cartesian vector. F= 900 N B 2m 4 m 2m 7 m
A:
Q: When a gravity-driven liquid jet issues from a slot in a tank, as in Fig an approximation for the ex...
A:
Q: At the beginning of compression an ideal Diesel cycle using air has a pressure of 15 psia, a tempera...
A:
Q: 4. For the pipe-flow-reducing section of Fig. P3.54, D, cm, D; - 5 cm, and P:-1 atm. All fluids are ...
A:
Q: 3. What is the difference between Turn Coordinator and Turn and Slip Indicator?
A: the ture and slip indicator and turn coordInator are very similar.in fact , the turn and slip indica...
Q: F(r) A- Derive the dynamic model using the free body diagram B- Check is it linear, and if it is not...
A: Given : To find : Transfer function
Q: For the vectors A = 8.0m South and B = 15.0 m, 30° E of N, use the method of components to find the ...
A:
Q: A stepped shaft of solid circular cross sections(see figure) has length L = 0.80 m, diameterd2 = 40 ...
A: Given Diameter, d1 = 1.0 in. d2 = 1.2 in. Length, L = 45 in. ...
Q: If the internal torque experienced by a hollow brass shaft (G = 39 GPa) at a section with diameter d...
A:
Draw the shear-force and bending-moment
diagrams for a cantilever beam AB carrying a uniform
load of intensity q over one-half of its length (see figure).
Trending now
This is a popular solution!
Step by step
Solved in 2 steps with 2 images
- Beam ABCD represents a reinforced-concrete foundation beam that supports a uniform load of intensity q1= 3500 lb/ft (see figure). Assume that the soil pressure on the underside of the beam is uniformly distributed with intensity q2 Find the shear force VBand bending moment MBat point B. Find the shear force Vmand bending moment M at the midpoint of the beam.Cantilever beam AB carries an upward uniform load of intensity q1from x = 0 to L/2 (see Fig. a) and a downward uniform load of intensity q from x = L/2 to L. Find q1in terms of q if the resulting moment at A is zero. Draw V and M diagrams for the case of both q and qtas applied loadings. Repeat part (a) for the case of an upward triangularly distributed load with peak intensity q0(see Fig. b). For part (b), find q0, instead of q1-1 through 5.10-6 A wide-flange beam (see figure) is subjected to a shear force V. Using the dimensions of the cross section, calculate the moment of inertia and then determine the following quantities: The maximum shear stress tinixin the web. The minimum shear stress rmin in the web. The average shear stress raver (obtained by dividing the shear force by the area of the web) and the ratio i^/t^ The shear force carried in the web and the ratio K b/K. Note: Disregard the fillets at the junctions of the web and flanges and determine all quantities, including the moment of inertia, by considering the cross section to consist of three rectangles. 5.10-2 Dimensions of cross section: b = 180 mm, v = 12 mm, h = 420 mm, i = 380 mm, and V = 125 kN.
- -1 through 5.10-6 A wide-flange beam (see figure) is subjected to a shear force V. Using the dimensions of the cross section, calculate the moment of inertia and then determine the following quantities: The maximum shear stress tinixin the web. The minimum shear stress rmin in the web. The average shear stress raver (obtained by dividing the shear force by the area of the web) and the ratio i^/t^ The shear force carried in the web and the ratio V^tV. Note: Disregard the fillets at the junctions of the web and flanges and determine all quantities, including the moment of inertia, by considering the cross section to consist of three rectangles. 5.10-4 Dimensions of cross section: b = 220 mm, f = 12 mm, h = 600 mm, hx= 570 mm, and V = 200 kN.-1 through 5.10-6 A wide-flange beam (see figure) is subjected to a shear force V. Using the dimensions of the cross section, calculate the moment of inertia and then determine the following quantities: The maximum shear stress tinixin the web. The minimum shear stress rmin in the web. The average shear stress raver (obtained by dividing the shear force by the area of the web) and the ratio i^/t^ The shear force carried in the web and the ratio V^tV. Noie: Disregard the fillets at the junctions of the web and flanges and determine all quantities, including the moment of inertia, by considering the cross section to consist of three rectangles. 5.10-3 Wide-flange shape, W 8 x 28 (see Table F-L Appendix F); V = 10 kA fixed-end beam AB of a length L supports a uniform load of intensity q (see figure). Beginning with the second-order differential equation of the deflection curve (the bending-moment equation), obtain the reactions, shear forces, bending moments, slopes, and deflections of the beam. Construct the shear-force and bending-moment diagrams, Labeling all critical ordinales.
- -1 through 5.10-6 A wide-flange beam (see figure) is subjected to a shear force V. Using the dimensions of the cross section, calculate the moment of inertia and then determine the following quantities: The maximum shear stress tinixin the web. The minimum shear stress rmin in the web. The average shear stress raver (obtained by dividing the shear force by the area of the web) and the ratio i^/t^. The shear force i^/t^ carried in the web and the ratio V^tV. Note: Disregard the fillets at the junctions of the web and flanges and determine all quantities, including the moment of inertia, by considering the cross section to consist of three rectangles. 5.10-6 Dimensions of cross section: b = 120 mm, a = 7 mm, h = 350 mm, hx= 330 mm, and K=60kN.Draw the shear-Force and bending-moment diagrams for a simple beam AB supporting two equal concentrated loads P (see figure). Repeat if the left-hand load is upward and the right-hand load is downward.Find expressions for shear force V and moment M at mid-span of beam AB in terms of peak load intensity q0and beam length variables a and L Let a = 5L/b.
- -1 through 5.10-6 A wide-flange beam (see figure) is subjected to a shear force V. Using the dimensions of the cross section, calculate the moment of inertia and then determine the following quantities: The maximum shear stress tinixin the web. The minimum shear stress rmin in the web. The average shear stress t (obtained by dividing the shear force by the area of the web) and the ratio tmax/taver. The shear force Vweb/V carried in the web and the Vweb/V. Note: Disregard the fillets at the junctions of the web and flanges and determine all quantities, including the moment of inertia, by considering the cross section to consist of three rectangles. 5.10-1 Dimensions of cross section: b = 6 in,, ï = 0.5 in., h = 12 in,, A, = 10.5 in., and V = 30 k.A beam with a channel section is subjected to a bending moment M having its vector at an angle 0 to the 2 axis (see figure). Determine the orientation of the neutral axis and calculate the maximum tensile stress et and maximum compressive stress ecin the beam. Use the following data: C 8 × 11.5 section, M = 20 kip-in., tan0=l/3. See Table F-3(a) of Appendix F for the dimensions and properties of the channel section.A counterclockwise moment M0acts at the midpoint of a fixed-end beam ACB of length L (see figure). Beginning with the second-order differential equation of the deflection curve (the bendingmoment equation), determine all reactions of the beam and obtain the equation of the deflection curve for the left-hand half of the beam. Then construct the shear-force and bending-moment diagrams for the entire beam, labeling all critical ordinales. Also, draw the deflection curve for the entire beam.