Q3. In the figure below, oneend of the uniform beam ofmass 50 kg is hinged to a wall.The other end of the beam issupported by a cable thatmakes angles e = 30 degreeswith both the wall and thebeam. A box of mass 10 kg ishanged at the end of thebeam with a rope. Themagnitude of the forces at thehinge.HingeropeMg=10kgcable-.

Given: The mass of the beam is 50 kg. The mass of the box is 10 kg. The angle between the cable and…

Answered: Q3. In the figure below, one end of the…

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Similar questions

A 100N load is supported vt a strong bar as shown in the figure. The tension in the cable is 200 N. 1.Compute the value of angle B if its twice the value of angle A 2.Compute value of A 3.The value of axial force in strong bar in N
A 509.9N horizontal steel shaft is suspended by a vertical cable from A and by a second cable BC which lies in a vertical transverse plane and loops underneath the shaft. Calculate the tension T1 (N) in the cable. Round off only on the final answer expressed in 3 decimal places.
ENGINEERING MECHANICS If the motor exerts a constant force of 300 N on the cable, determine the speed of the20-kg crate when it travels s= 10m up to the plane, starting from the rest. Thecoefficient of kinetic friction between the crate ant the plane is μ = 0.3. Determine: (a) The work done by all the forces as the block moves 10m to the plane. Sketchtogether the free body diagram. (b) The work done by all the forces as the block moves 12m to the plane with pullingforce of 400N with an angle of 50°. Mass of the object is added with 6kg.Coefficient of friction is 0.50. Sketch together the free body diagram.
Homework: Cables are attached to pins at A, B, and E as shown in Figure below. Determine the horizontal and vertical components of the pin reaction at C on member DCA. Neglect the weights of the members and the pulleys. 5 mm mm 3 mm Cable 200 Nimm 3 mm Smooth pulleys 50 Nm 200 N 3 mm D
B The two blocks shown are originally at rest. Neglecting the masses of the pulleys determine the tension in the cable. Given: . • Weight of block A = 220 lbs Weight of block B = 190 lbs • kinetic friction coefficient = 0.55 Find: A • Tension in cable = lbs Your Answer:
A 100N load is supported by a strong bar as shown in the figure. The tension in the cable is 200N. Compute the value of angle "B", if it is twice the value of angle "A", in degrees.
From the figure as shown, the cable BC supports the horizontal bar AB. Compute the shear stress at the hinge support at A having 20mm Ø and at the pin support at B which has 40 mm Ø pin. The given views showhow manyof shearcan beproduced.Use 2 decimal places in every solved value.
Determine the vertical and horizontal reactions of the hinge support if the weight of M object is FN Kilonewton, value of a = SN and b = MN meters. The equivalent of 0 is 30 degrees Note: MN = 88 FN = 88 SN = 47 a Hinge b Cable m Beam com M Rope

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