Q2 Calculate the load P at which structure becomes unstable. Load will be applied at B gradually. Bar AB and BC are rigid. Take K= 200kg/cm シP 80om B. BU Cm 45 C
Q: If the 20-kg smooth collar starts from rest at A, determine its velocity when it reaches point B.…
A: Solution: Given: a = 350 mm b = 250 mm θ = 35o F = 350 N weight = 20 kg
Q: The50-lb homogeneous bar AB is suspended from a rope that runs over a small peg at C. The bar is…
A: Show the free body diagram of the given bar and rope and the detail of rope at C as in Figure (1).
Q: The rigid bars shown are separated by a roller at C and pinned at A and D. A steel rod at B helps…
A:
Q: DETERMINE REACTION AT D
A:
Q: Determine thy vertical displacement (mm) of joint B. Support A is roller and support D is hinge.…
A: FInd reactions:∑ MA=0Ex10-2010=0Ex=10k∑ Fx=0Ex-Ax=0Ax=10kips∑ Fy=0-20+Ay=0Ay=20kipsConsider joint…
Q: Calculate the forces in members BC, BE, and EF. Solve for each force from an equilibrium equation…
A:
Q: Problem 4: Two masses of 14 kg and 7 kg conr flexible inextensible cord rest on inclined pl below.…
A: Hi! Thank you for the question. As per the honor code, we’ll answer the first question since the…
Q: 0.9 m Example:Determine the force P needed to lift the load. Also, determine the proper placement x…
A:
Q: Determine the force P required to force the 15° wedge under the 87-kg uniform crate which rests…
A: The question is based on the crate which rests against the small stop at A. The dimension of the…
Q: Determine the force P required to force the 12° wedge under the 71-kg uniform crate which rests…
A:
Q: WIn the figure 9, assume clockwise moments as positive, force F= 432KN and force P =500 KN. Compute…
A:
Q: In the figure 9, assume clockwise moments as positive, force F= 432KN and force P =500 KN. Compute…
A:
Q: The rigid bars shown are separated by a roller at C and pinned at A and D. A steel rod at B helps…
A:
Q: 4. If each rod 3m length and 2m length rod has areas of 400 mm² and young's modulus of 70 GPa,…
A:
Q: 3. The 25-kg flowerpot is supported at A by the three cords. Determine the force acting in each…
A:
Q: anylyze the following structure using the force method. assume constant El E 50 N> 4m 4m lom
A:
Q: in the figure 9, assume clockwise moments as positive, force F= 432KN and force P =500 KN. Compute…
A:
Q: roblem 8.59 (Figure 1) Figure 1 of 1 4 kN/m Part A If the beam AD is loaded as shown, determine the…
A: Given Data : We have to find the value of P and to check weather the wedge is self locking?
Q: A 3 kN/m 3 m B C 1 m 4 m D 4 kN/m 6 kN/m 3 m E
A: Given simply supported beam with loading conditions. It is required to Determine (a) the equation…
Q: The rigid bars shown are separated by a roller at C and pinned at A and D. A steel rod at B helps…
A:
Q: From the given beam loaded as shown, Let P = 3 kN, L = 7 m, E = 200GPA, I = 2000 x 10^6mm^4 1.…
A: As per company's guidelines we can only answer first three questions. Kindly post other questions as…
Q: a- 33.8 kN, b 27.2 kN, 48 m kN D " KN " kN 4 m 5m A. - 40 x 10 mm A- 60 x 10 mm A- 40 x 10 mnm…
A:
Q: 3) The steel bars AB and BC are pinned at each end and support the load 200 kN as shown in the…
A:
Q: In the figure 9, assume clockwise moments as positive, force F= 432KN and force P =500 KN. Compute…
A:
Q: 5 Ton /m 10 Ton A A B A C -3m + Am
A:
Q: If P = 250 N, determine the required minimum compression in the spring so that the wedge will not…
A: The free body diagram of the wedge is drawn as follows:
Q: The two 4.6° wedges shown are used to adjust the position of the column under a vertical load F of…
A:
Q: Q6) The block has a mass of 15kg and rests on the smooth plane. Determine the .unstretched length of…
A: Mass of block=15kg To find Unstretched length of spring
Q: Determine the force P required to force the 16° wedge under the 94-kg uniform crate which rests…
A:
Q: The cantilever beam as shown in figure of span 5 m is supported by a 2 m long, 2 mm diameter wire…
A:
Q: Q6// The block show in figure bellow has a mass of 5 kg and rests at the plane. Determine the…
A: Consider the free body diagram of the system. The angle made by string AB with the horizontal axis…
Q: Determine the constant force P required to cause the 0.36-kg slider to have a speed v2 = 0.88 m/s at…
A:
Q: A box (m=100 kg.) is subjected to a force F = 450 N. The static and kinetic friction coefficients…
A:
Q: Determine the force P required to force the 15° wedge under the 72-kg uniform crate which rests…
A:
Q: 2 kN/m 5 kN-m C 4 m
A: Given, A beam, L= 4m M= 5kN-m w= 2kN/m
Q: The three-bar truss ABC shown in the figure has a span L = 3 m and is constructed of steel pipes…
A:
Q: A downward load of Q = 33 kN is applied to rigid bar ABD as shown in the sketch. Axial member CDE…
A:
Q: Problem 1. Determine the smallest force P needed to lift block B. The coefficient of static friction…
A: Coefficient of static friction We all know that frictional force resists motion and is defined as…
Q: Prob 6. Determine the elastic curve equation for the beam. The beam has a base and height of (b=12…
A:
Q: Q1/ Determine the resulting displacement of pin B. Assume: A1=A2= 900 mm? , E1=E2= 100 GPa, a1=a2=…
A:
Q: Determine the internal forces at point D. Member AB has a unit weight of 500 N/m; member BC has a…
A: Consider the free body diagram as; WAB=500 N/mWBC=800 N/m And; 360°=2πr135°=2πr360×135°Arc…
Q: PROBLEM 1 Determine the value of load P if: (neglect friction) Block A = 8N Block B = 4N O = 45° P B…
A:
Q: THE COEFFICIENT OF STATIC FRICTION BETWEEN THE BLOCK AND THE PLANE IS µs = 0.2. DETERMINE THE…
A:
Q: Q1/ Determine the resulting displacement of pin B. Assume: A1=A2= 900 mm2 , E1=E2= 100 GPa, a1-a2=…
A: Given Data: The area of member AB and CB is, A1=A2=900 mm2 The elastic modulus of both members is,…
Q: Question 3 The rigid bar AB, attached to aluminum and steel rods, is horizontal before the load P is…
A:
Q: Problem 1 If roller support is added at point C, 20ft. from point A. Determine the following: (Use…
A:
Q: From the given beam loaded as shown, Let P = 3 kN, L = 7 m, a = 3 m. E = 200GPA, I = 2000 x 10^6mm^4…
A: Using Macaulay method Given data P = 3 KN/m L= 7 m L/2 = 3.5 m E = 200 GPA = 2 × 105 N/mm2 I = 2…
Q: 2. Calculate the support reactions for determinate frame structure as shown. The supports A and B…
A:
Q: Q1/ Determine the resulting displacement of pin B. Assume: A1=A2= 900 mm2 , E1=E2= 100 GPa , a1=a2=…
A:
With steps please !!!!
Step by step
Solved in 7 steps with 11 images
- A cantilever beam with a ‘T’ shaped cross-section is loaded with a distributed load as shown below.The intensity of the distributed load is 100N/mm. b = 6.25mm and c=6.25mm.Parameter Description Value UnitsL - Beam length 250 mma - Width of the flange 80 mmd - Height of the web 75 mmσ - Yield stress 250 MPaYou are tasked with ensuring the beam can withstand the applied loading. To do this you must:a) Calculate the centroid for the given cross-section. Your value of ?ത should be measured fromthe bottom of the section. Determine an expression for Q (statical moment of area) for thegiven shape. The expression(s) for Q should be in terms of the variable, y, measured from thebottom of the section. b) Create a graph of the shear and bending stresses at the fixed support (B) over the crosssection. The stresses should be plotted as a function of y, measured from the bottom of thesection.* TRUTT 50 kN/m 8m TIZI SLAB THICKNESS 150mm 2500 mm fe'= 21 MPa fy = 414 тра Cc = 40mm spacer barp=25mm Say bw= 0.6h DESIGN THE T-BEAM AND SHOW THAT TENSION STEEL YIELDS AND THE BEAM IS TENSION CONTROLLEDTwo members, 1 and 2, are subjected to thermal stress. Determine the total deformation of member 1 (in mm). Indicate negative sign if in compression. AT=30°C x =11,7 X10 =17:3X10 L-asm E= 200GPA hollow circle each side: Isomm douter= 150 m L-2,5M %3D E: HO Gla %3D regular hexagon dinner= E0 mm
- The horizontal bar ABC is supported by a pin at A and two rods with identical cross- sectional areas. The rod at B is steel and the rod at C is aluminum. Neglecting the weight of the bar, determine the force in each rod when the force P = 80 kN is applied. Use Est = 200 GPa and Eal = 70 GPa. %3D Steel Aluminum A B T2 m- 1.5 m- Im(40 Hiw A Pismatic steel bar ofa Square cross section (loo*lo0)mm is looled by Comressive force P= 1300 kU, the bar has length 2.5 m, Eg=200 G Pa, V=0.3,determine the Shortening d, the increase in the dimensions of cross Section , the change in Volume DV of the bar? loomm JoommB C D Aluminum Steel Steel 40°-20% 10 ft Rigid E A 10 kips
- The compound bar carries axial loads as shown. Determine the maximum allowable value of P if the change in length of the entire bar is limited to 0.08 inch and the working stresses listed in the table are not to be exceeded. Steel 2 ft Bronze 4 ft Aluminum 3 ft 2P 3P 4P A (in.?) E (psi) a. (psi) Steel 0.75 30 x 10 20000 12 x 10 10 x 10 Bronze 1.00 18000 Aluminum 0.50 12000Two members, 1 and 2, are subjected to thermal stress. Determine the compressive force acting on the members. (in kN) AT =30 °C X=1|,7 XID%. a = 17:3X10% L-2,5M L-3.sm E= 200GPA E: 70 Gla regular hexagon hollow circle each side : 15omm douter 150 mm dinner = 50 mmI need answer ASAP. Thank u! STR 2 for the tapering of circular cross section which is subjected to point loads as shown. The section AB has a uniform diameter of 60mm and for the section CD, the uniform diameter is 300mm. Determine the load P3 for equilibrium and net change in length of bar. for Take modulus of elasticity of the bar material as E = 200 GPa. Determine the load P for equilibrium. Determine the net change in length of bar.
- 42 KN the cross-sectional area of each member is 600 mm² Determine the stress in member EF. Answer in MPa rounded-off to 2 decimal places AddSNUIF ana. 2m A Last saved 4:09:09 PM 1455 ET 2 m Next > Last >Asiacell|Asiacel K/s Asiacell For simply supported beam with rectangular cross section shown, determine the values and location of the maximum tensile and compressive bending * stresses 1000 lb 400 lb/ft 6 in DV 8 in 10 ft RA Rp3G “. Asiacell %99 Home Work... adhomShupper H.W. 1: 4.3 m Two axial members are used to support a load P applied at joint B. • Member (1) has a cross-sectional area of A = 3,080 mm2 and an allowabl normal stress of 180 MPa. • Member (2) has a cross-sectional area of Az = 4,650 mm2 and an allowable normal stress of 75 MPa. Determine the maximum load P that may be supported without exceeding either allowable normal stress. 5.0 m 2.0 m