Homework: In the Figure below, a cantilever beam is subjected to an inclined force (P); calculate the: 1- Normal stress. 2- Shear stress. y P = 100 N 30° + X
Q: kindly differentiate the canning methods of process in boiling water bath and using autoclave with…
A: Canning is the process in which foods are placed in cans and jars and heating them to a specified…
Q: What is the maximum bending stress?
A: To find maximum bending stress?
Q: Date for benzene (1) + cyclopentane (2) at 35 0C were obtained by Horsemen & Prausniz (1963).…
A: Housemen & Prausniz achieved date jou benzene (1) + cyclopentane (2) at 35°C (1963). With the…
Q: 5.8-9 A laminated wood beam on simple sup- ports (figure part a) is built up by gluing together four…
A:
Q: A circular aluminum alloy [E = 70 GPa; α = 22.5 × 10–6/°C; ν = 0.33] pipe has an outside diameter of…
A:
Q: The rectilinear motion of a particle is governed by a = 12t – 6t². It starts from rest when t = 0.…
A:
Q: Example 2: The acceleration of a particle moving along a straight line is a= s m/s², where s is in…
A:
Q: Find the reactions at support A. 4 kN/m 3 kN/m 6m X 6m
A: Draw the free body diagram at A
Q: Question 3: When correctly solving problem: "The acceleration of a particle moving along a straight…
A:
Q: en E = 200 GPa and figure shown. What is the maximum displacement? ensile stress at cable. What is…
A:
Q: A rail line is laid so that there is no stress in rails at 15°C. The rails are 50 m long. α = 11.7 ×…
A: Temperature, T1= 15∘C Rail length, L= 50 m α= 11.7×10-6/∘C E= 2.3×105 N/mm2 Expansion allowance, ∆=…
Q: Create the front view of the sketch of the spur wheel (hand written)
A:
Q: Q35. A plate of length 600 mm and weighing 100 N is hung from the hinge at the top. It is hit by a…
A:
Q: Model in the state space and simulate using Euler's method. The variable to be measured is the speed…
A: We know the model in state space and use Euler's approach to simulate it. The locomotive's speed…
Q: Enthalpy, Ideal Work, Work Lost, Enthalpy Generation. A compressor accepts an ideal gas at T1 = 500…
A:
Q: Consider the two point BVP: -u" + 3u = 1, 0 <x<1, with u(0) = u(1) = 0
A: A two-point boundary value issue is defined when the solution and derivatives are stated at only…
Q: Fill in the blanks: The ratio of volume at the end of expansion to the volunbelat beginntng of…
A:
Q: hydraulic radius (m) for a circular pipe of diameter (D) behaving as open channel is given by - - -…
A:
Q: Problem 2 Determine the angular momentum of the 3 kg particle A about point P. = 5 m/s 10 4 -3
A:
Q: A rod specimen of ductile cast iron was tested in a torsion-testing machine. The rod diameter was 14…
A:
Q: Since there is a pressure force P at point A, a tensile force of 2P at point B, and a pressure force…
A: Given that, Pressure at point A=P,Tensile force at point B=2P,Pressure at point C=4P, Calculating…
Q: artB: onsidering only tunnel Mach numbers of 1.5, 2 and 3, with test section c eas of 6 x 6 in and…
A:
Q: Find the reactions at support A. 4 kN/m 3 kN/m 6m 6m
A:
Q: A jet of velocity of 20 m/s strikes a flat plate inclined at 30° with the axis of the jet. If the…
A: Force:
Q: A rod specimen of ductile cast iron was tested in a torsion-testing machine. The rod diameter was…
A:
Q: Determine the capacity, in liters, of the punch bowl shown if R= 370 mm. (Round the final answer to…
A:
Q: 2. There are supplied 317 KJ/cycle to an ideal Diesel engine operating on 227 g air; p= 97.91 KPa, t…
A:
Q: Q2: Explain the procedure of venture meter experiment.
A:
Q: Construct the shear-force diagram and identify the largest negative shear force. Assume a = 5.9 ft,…
A:
Q: What best describes this print? * A. Casting B. Forging C. Welding D. Machining 2. There are GD&T…
A: First of all, In the given Engineering drawing the Rotor assembly is given and its parts are drawn…
Q: Example 21.4. A, B, C and D are four masses carried by a rotating shaft at radii 100, 125, 200 and…
A: given; gap between balanced mass(d)=600mm radius of A (rA)=100mmradius of B (rB)=125mmradius of C…
Q: A six-lane freeway (three lanes in each direction) in rolling terrain has 10-ft lanes and…
A: To given thatfLW=6.0mphfLC=0.8mphTRD=1.5Now using relation for free flow…
Q: Consider a compression-ignition engine with compression ratio of 16.5 and temperature at the…
A: Given that: Compression ratio of the compression ignition cycle is 16.5. Temperature at the…
Q: The uniform beam has a mass 57 kg per meter of length. Determine the reactions at the supports. 2.9…
A: Find the reactions at support.
Q: Solve 5 problems (following the conditions stated below) involving the use of shear and moment…
A:
Q: A cylindrical pressure vessel has an outside diameter of 1.5 meters, and a length of 5 meters. The…
A: The outside diameter of a cylindrical pressure vessel is 1.5 metres and its length is 5 metres. The…
Q: IF THE IMPELLER OF A CENTRIFUGAL PUMP IS KEPT THE SAME AND THE SPEED VARIED, THE PUMP OUTPUT SHALL…
A: With the same impeller specifications (i.e, Diameter) and change in speed:- 1) Flow rate is…
Q: An extension spring made from A313 stainless steel has a mean coil 10.00 mm and spring wire diameter…
A:
Q: Q-3 /8/ Choose the word to match the verb: 1- give 2- choose a. your parents b. your paper ca party…
A: 'a party' will comes after the verb 'give'. 'your paper' will comes after the verb 'choose'. 'a…
Q: View Policies Current Attempt in Progress Two solid cylindrical rods (1) and (2) are joined together…
A:
Q: A reinforced concrete column 400 mm in diameter is designed to carry an axial compressive load of…
A:
Q: 1. Find the effective stiffness (keg) of the spring system shown below. -WWE
A:
Q: Fill in the blanks: The volumes of states 1, 2 and 3 of a diesel cycle operating on an air standard…
A: Find the power output.
Q: A spring balance is calibrated in an environment at a temperature of 20°C and has the following…
A:
Q: 2. Design a V-Belt drive, Specify the belt size, the sheaves sizes, the number of belts, the actual…
A: Given: The service day, N = 22 The input speed, ni = 1750 rpm The input power, P = 3.73 kW = 5 hp…
Q: Consider the truss shown in the figure below. Calculate the force on the member BC. A 5 ft D
A: Given: The structure,
Q: Question 2 Determine the force in each member of the truss in Figure 2, and state if the members are…
A:
Q: Determine the capacity, in liters, of the punch bowl shown if R= 370 mm. (Round the final answer to…
A:
Q: A piece of ceramic of mass equals to 0.015 kg initially at 15°C receives 45000J in form of heat when…
A:
Q: Fourth Problem: Any type of beam loaded with uniformly varying load.
A: To find : shear force and bending moment diagram of beam containing uniformly varying load
Step by step
Solved in 2 steps with 2 images
- A simply supported wooden I-beam with a 12-ft span supports a distributed load of intensity q = 90 lb/ft over its length (see figure part a). The beam is constructed with a web of Douglas-fir plywood and flanges of pine glued to the web, as shown in the figure part b. The plywood is 3/8 in. thick: the flanges are 2 in, × 2 in, (actual size). The modulus of elasticity for the plywood is 1,600,000 psi and for the pine is 1,200,000 psL Calculate the maximum bending stresses in the pine flanges and in the plywood web. What is q, if allowable stresses are 1600 psi in the flanges and 1200 psi in the web?Two flat beams AB and CD, lying in horizontal planes, cross at right angles and jointly support a vertical load P at their midpoints (see figure). Before the load P is applied, the beams just touch each other. Both beams are made of the same material and have the same widths. Also, the ends of both beams are simply supported. The lengths of beams AB and CD are LABand LCD, respectively. What should be the ratio tABltCDof the thicknesses of the beams if all four reactions arc to be the same?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.)
- A singly symmetric beam with a T-section (see figure) has cross-sectional dimensions b = 140 mm, a = 190, 8 mm, b. = 6,99 mm, and fc = 11,2 mm. Calculate the plastic modulus Z and the shape factor.A simple beam thai is IS ft long supports a uni¬form load of intensity a. The beam is constructed of two angle sections, each L (1 × 4 × 1/2, on either side of a 2 in. x 8 in. (actual dimensions! wood beam (see the cross section shown in the figure part a]. The modulus of elasticity of the s I eel is 10 limes that of the wood, (a) If the allowable stresses in the steel and wood are 12,000 psi and 900 psi. respectively, what is the allow atile load a t. A olc. Disregard the weight of the beam, and see Table F-5(a) of Appendix I ' for I lie dimensions and properties of the angles. (b) Repeal partial if a I in. 10 in. wood Hange tactual dimensions) is added i see figure pallhi b).A cantilever beam of length L = 2 m supports a load P = 8,0 kN (sec figure). The beam is made of wood with cross-sectional dimensions 120 mm x 200 mm. Calculate the shear stresses due to the load/"at points located 25 mm, 50 mm, 75 mm, and 100 mm from the top surface of the beam. From these results, plot a graph showing the distribution of shear stresses from top to bottom of the beam.
- A steel plate (called a cover ploie) having cross-sectional dimensions 6,0 in. × 0.5 in. is welded along the full length of the bottom flange of a W 12 × 50 wide-flange beam (sec figure, which shows the beam cross section). What is the percent increase in the smaller section modulus (as compared to the wide-flange beam alone)?A propped cantilever beam A BC (see figure) has a shear release just right of the mid-span. (a) Select the most economical wood beam from the table in Appendix G; assume4 = 55 lb/ft, L = 16 ft, o~aw= 1750 psi, and raw= 375 psi. Include the self-weight of the beam in your design. (b) If a C 10 x 25 steel beam is now used for beam ABC, what is the maximum permissible value of load variable q? Assume üi = 16 ksi and L = 10 ft. Include the self-weight of the beam in your analysis.-5-7 A cantilever beam AB carries three equalaly spaced concentrated loads, as shown in the figure. Obtain formulas for the angle of rotation B and deflaction B at the free end of the beam.
- A weight W = 20 kN falls through a height h = 1,0 mm onto the midpoint or a simple beam of length L = 3 m (see figure). The beam is made of wood with square cross section (dimension don each side) and E = 12 GPa. If the allowable bending stress in the wood is °aLLow =10MPa, what is the minimum required dimensionA pontoon bridge (see figure) is constructed of two longitudinal wood beams, known as bulks, that span between adjacent pontoons and support the transverse floor beams, which arc called chesses. For purposes of design, assume that a uniform floor load of 7.5 kPa acts over the chesses. (This load includes an allowance for the weights of the chesses and balks.) Also, assume that the chesses are 2.5 m long and that the balks are simply supported with a span of 3.0 m. The allowable bending stress in the wood is 15 MPa. If the balks have a square cross section, what is their minimum required width b^l Repeat part (a) if the balk width is 1.5 b and the balk depth is b; compare the cross-sectional areas of the two designs.-3 The deflection curve for a simple beam AB (see figure) is given by v=q0x360LEI(7L410L2x2+3x4) Describe the load acting on the beam.