For the figure shown, determine the horizontal and vertical components, respectively, of the hinge support at A. (kN) 60 kN 10KN/m D 3m 15 m 1m > 30° E
Q: Mechanics of Deformable Bodies The rigid beam of negligible weight is supported by a pin at o and…
A:
Q: Two bars, a pulley, and a cable are used to sup- The two bars have port a block as shown in Fig.…
A: Given data To determine Internal force at cross section a-a of the bar AB..??
Q: M h B For the given system; a) Draw bending moment and shear force diagrams. b) Determine the most…
A: Consider horizontal forward & vertically upward force as (+)ve and vertically downward force as…
Q: • Dimensions: width, b = 54 mm, depth, d = 110 mm, and height, h = 284 mm. • The modulus of…
A: Given:b=54 mmd=110 mmh=284 mmE=3 GPav=0.45θ=70°∆d=0.40 mm
Q: A cable supports two vertical loads as shown in Fig. The sag at point B of the cable is 2 m.…
A: The problem can be explained with the free body diagram where the reaction will solved
Q: & BC of the truss structure shown below: 20KM 10KN 20 KN E. 15 kN 3m 3okN 4m
A: Given DataF1=10kNF2=20kNF3=20kNF4=30kN
Q: Rigid bars AB and BCD are supported by pins A and D and by a steel rod at C. There is a roller E =…
A:
Q: 2) Reqd: Determine e of A relative to D Gs = 12 x 10° psi MN Ib ft 1000 Ib -t 2-in. diameter 900 lb…
A:
Q: In the figure shown, the blocks weigh 200 N each. Both are connected by a horizontal bar weighing…
A:
Q: • Dimensions: width, b = 54 mm, depth, d = 110 mm, and height, h = 284 mm. • The modulus of…
A:
Q: E 100 175 400 LBE C D 150% 400 E 175 41⁰ 200 B 900 150 G H 930 800 150 200 Dimensions in millimeters…
A:
Q: Compute for the vertical reaction at the hinged support at C. Given the following data and figure:…
A: P1=9 NP2=17 NF1=12 Nx=2 mz=5 my=7 m
Q: A post is supported by a ball-and-socket joint at O and cables BC and BD. A triangular distributed…
A: Given data, w = Maximum intensity of UVL = 36 N/m rOA = Length OA = 1.6 m rOB = Length OB = 2.5 m…
Q: For the rigid frames shown in Figure, determine the displacements and rotations of the nodes, the…
A: Given: The elastic modulus, E = 210 GPa The cross-sectional area, A = 1 x 10-2 m^2 The moment of…
Q: For the following structure, represent Mohr's Circle at point K of the structure and point Section…
A: given; q=61kN/mV= 51kNN=48kNh1 = 221 mmb1=221 mmh2=t=21 m ⇒lets take reaction force at A=RA⇒lets…
Q: Member AB (helical spring) and Member AC (axial rod) are carrying a weight at point A. Member AB has…
A:
Q: Determine the effective length factor (K) for all columns in the figure below: C W16 X 57 W16 X 57 I…
A: ACCORDING TO DATABOOK, MACHINE DESIGN DATA BOOK BY V.B. BHANDARI, PAGE NO. 256, TABLE NAME: TABLE…
Q: Use the graphical method to construct the shear-force diagram and identify the magnitude of the…
A:
Q: A post is supported by a ball-and-socket joint at O and cables BC and BD. A triangular distributed…
A: Given: The load can be given as,w=36 Nm The length OA is, OA=1.6 m. The length OB is OB =2.5 m
Q: The vertical reaction in the hinged support shown in the figure is Blank 1 N. 200 N 200 N B E 2 m 2…
A:
Q: asConsider a structure including the horizontal beam AB hinged to the wall at point A and supported…
A:
Q: In figure, if the floating ball radius is blä 5 0.5 m and its density= 2000 N/m3, the * ? cable…
A:
Q: 35 kN/m B. 9 m El - constant E - 70 GPa I - 1,800 (10) mm*
A: Since we are allowed to answer one question at a time. We’ll answer the first question since the…
Q: A post is supported by a ball-and-socket joint at O and cables BC and BD. A triangular distributed…
A: Part C An equivalent load for triangular distribution load can be determined from the formula as…
Q: The beam is supported by a fixed support at point A. There are 2 distributed loads applied to the…
A:
Q: Consider a structure including the horizontal beam AB hinged to the wall at point A and supported by…
A:
Q: Determine the axial force (kN) in each member of the assembly shown below. Member Cross-Sectional…
A:
Q: An aluminum [E = 10,000 ksi] control rod with a circular cross section must not stretch more than…
A: Given:E=10,000 ksi∆L=0.31 inP=2100 lbd=0.370 in
Q: Use the graphical method to construct the shear-force diagram and identify the magnitude of the…
A: Given- L1 = 14.75ft L2 = 7.75ft Reaction force on point C = 91.50kips Moment on point C =…
Q: An aluminum [E = 10,000 ksi] control rod with a circular cross section must not stretch more than…
A:
Q: A bronze pipe (1) is to be connected to an aluminum alloy pipe (2) at flange B. When put in place,…
A: Given:
Q: Body (A) as shown in Figure below has weight equal to(175 N) and the homogenous bar (E ) has weight…
A:
Q: Determine the magnitude acting on joint C for the frame shown below. 370 P- 72 N 1.7 m C 2.9 m 490 A…
A:
Q: The tube, shown below, is supported by two cables (AB) and (AC). A force F = 600 lb is applied in…
A:
Q: k2 2 13 ki P Rigid bar k3 3 for the system shown in the figure, which of the following statements…
A: The rigid bar of system is given The displacement of rigid bar is given as, u The load acting on…
Q: Q4//Determine the required vertical force F to be applied at the lower edge to open the square gate…
A: Area= 2.8×2.8 =7.84m2 Location of CG(y) =1.8+2.8sin45/2 =2.78m…
Q: Three wires are connected at point D, which is located 18 in. below the T-shaped pipe support ABC.…
A: Solution:
Q: Compute for the horizontal pin support at D. (A) 10.5 N B) 11.21 N C) 12.5 N D) 15.4 N 2.08 N A 4.15…
A:
Q: 2m 2 m The structure is comprised of rigid bars AB and BCD supported by hinges at A and D. A steel…
A:
Q: A cable is loaded and supported as shown in Fig. The vertical distance ve is 4 ft. Determine The…
A: Given, yc = 4 ft
Q: Draw the shear and moment diagrams for each of the beams shown.
A: given beams
Q: Cables of negligible weight support the loading shown. (Figure 1) If W1 = 5.00 lb , W2 = 71.0 lb ,…
A: A frictionless pulley will transmit the same magnitude of load from one end to another end by only…
Q: Answer True or False: For the mechanical structure shown in figure, the concrete pipe have weight…
A: Weight: It is a product of the mass of the object with the gravitational acceleration. The SI unit…
Q: 3. The free length of the plain ends spring is equal to (where: Na = the number of active coils, P =…
A:
Q: D A AB Ac 03 B Torre de soporte WB Wc L= 100 ft
A:
Q: A post is supported by a ball-and-socket joint at O and cables BC and BD. A triangular distributed…
A: Given: The magnitude of load intensity w=36 N/m. The length of OA is 1.6 m.
Q: A Beam AB is supported by a pin at A and cable BC at B. The vertical component of reaction force at…
A:
Q: A 15,000 N crane pivots around a friction-free axle at its base and is supported by a cable making a…
A: GivenM=15000Nm=11000N
Q: B. 1.20m w.S. 6.0m
A:
Q: 1: An overhead transmission line conductor at river having two un same level towers the eight of…
A: Given- Height of tall tower = 75m Horizontal Distance = 200m Minimum clearance =22.1875m Weight of…
Step by step
Solved in 2 steps with 1 images
- Q1/ Two Forces Shown in Fig. (1) acts on the bracket, determine the effect of these two forces (using Parallelogram method). 100 F-150N F₁-200 N Fig. (1)MACARTHUR ESIA KELVIN SASIC MECHANICS Goli s8 7221 Answers Q1- Qュ Q 3 point v. determne bthe magnitude or the resultant force the angles Ore, Q and Oz the resultant Tuwo furces act 9. the companent bolt at the resultkat on makes X,4 and z axis FI=FON 30 55 F=300NFeD Fic (10+A)m 10 m 4 m Im (30+B -5 m 1.5 m Two tractors pull the tree as shown by tying the rope behind the tractor and the rope behind the tractor C at 1.5 m above the ground D at 1 m above the ground. Find an angle O made between the two ropes A = 4 %3D The angle between the two ropes (Theta) is equal to (Degree).
- touch &O D 00:28 MENG250 - Practice Assign... •2–33. If F, = 600 N and $ = 30°, determine the magnitude of the resultant force acting on the eyebolt and its direction measured clockwise from the positive x axis. 60° F, = 500 N F = 450 N ... >200 400 B 200 N m E D 200 F Dimensions in mm Determine the magnitude of the force (in N) of the x-component of the internal pin at D.The pedal chain unit of a bicycle is shown below. The left foot of the rider exerts a force F = 35.2 N, while the use of toe-clips allows the right foot to exert a nearly upward 80 N force. Treat the problem as two-dimensional. Determine the resultant force at o in N. 30 15 160 mm 80 N 160 mm 5° Leave a me
- Little Oliver is trying to help his parents with their garden using his new tiller with a height of d1 and a width of d2 between the handles. Given d¡ = 8cm, d2 = 9cm, 0 = 30° and M = 9N. m. Calculate F.The 50-ft measuring tape weighs 2.4 lb. Compute the span L of the tape to four significant figures.Problem 3. What is the moment of the 1.4 kN force along the direction of the 1.0 kN force? Express your answer as a magnitude and sketch the direction of rotation about the axis defined by the 1.0 kN force TIGBAO TK 1.0KN X 539 indi 21 150 mm 195 mm 2 4 160 mm 21% ARD 19TO 1.4 kN MEBIRT 0 DAW ITOM 00 1400
- Shown below is a toggle clamp that exerts only a vertical clamping force on the wood block at A. Determine the clamping force at A knowing that the force applied to the handle is F = 460 N, and the handle is L = 300 mm long. Enter the magnitude of the clamping force below. Express your answer in N to the nearest whole N. Note that the force F is perpendicular to the handle. A -235 mm 30 mm 30 mm 70 mm O Search OC B 30° F 30 L E Your written solution must include must include all necessary FBDs and calculations needed to determine the force clamping force at A, the force in member BE, and the forces exerted on member ACD by the pins at C and D. MO Ttouch & O 0 66% D 00:27 MENG250 - Practice Assi... Not saved yet *2-96. The tower is held in place by three cables. If the force of each cable acting on the tower is shown, determine the magnitude and coordinate direction angles a, ß, y of the resultant force. Take x = 20 m, y = 15 m. 600 N 800 N 400 N 24 m (16n 18 mQl two forces shown determine the effect of Cusing Parallelogram method) F23150N acts effect of these two force. 100⁰ F₂= 200 N on the bracket