1. In figure 1, a 20kn cylinder is supported by a rod AB inclined at 20° with respect to thehorizontal and rests against the uniform bar CD which weighs 10kn. Assume the pins A,B, C, D, and the rollers to be smooth and frictionless. Draw the FBD of the cylinder B,and find the compressive axial force acting on the rod AB.2. In problem 1, find the normal force acting between the cylinder and the rod CD (specifyif compression or tension)3. In problem 1, draw the FBD of bar CD and determine the magnitude and direction of theforce reaction at support C.4. In problem 1, determine the magnitude and direction of the horizontal component of theforce reaction at support D.5. In problem 1, determine the magnitude and direction of the vertical component of theforce reaction at support D.6. In problem 1, determine the magnitude and direction of the resultant force reaction atsupport D.Figure 1: 1. M20°45°21Z22MWS

Given:- Weight of cylinder = 20 kN Weight of bar CD = 10 kN To find:- To find the Reactions in the…

Answered: In figure 1, a 20kn cylinder is…

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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F1 F2 b M a C A a a Given the system above, F1 = 34 N, F2 = 96 N, M = 245 N-m, a = 3 m, b = 2 m, and a = 40°. %3D (a) Represent the system using a single force. Determine the magnitude of the force and its location relative to point A. Round all answers to the nearest integer. The magnitude of the force (N) is: N The position of the force relative to A (m) is: m (b) Represent the system using a force and a couple moment acting at point C. Determine the magnitudes of the force and the couple moment. Round all answers to the nearest integer. The magnitude of the force (N) is: N The magnitude of the couple moment (N-m) is: N-m
To determine the state of stress in a solid rod using the principle of superposition. A solid rod has a diameter of e = 50 mm and is subjected to the loading shown. Let a = 190 mm, b= 220 mm, c = 310 mm, d = 220 mm, and P = 3.0 kN. Take point A to be at the top of the circular cross-section. (Figure 1) Figure < 1 of 2 ▼ ▼ Part A - Moment about the x axis at A M₂ = As shown (Figure 2), a cut was made at A to determine the resultant internal loadings. Determine the moment about the x axis, M, Express your answer to three significant figures and include the appropriate units
The compound beam is subjected to a uniform dead load of 380 lb/ft and a uniform live load of 285 lb/ft. Assume B is a pin and C is a roller. Follow the sign convention. (Figure 1) Figure A 5 ft 00 B 5 ft D 5 ft C 1 of 1 Part A Determine the negative bending moment at A with the maximum magnitude. Express your answer using three significant figures. ΠΑΣΦ (MA)max(-) = Submit Part B (VD) max(+) Request Answer Determine the maximum positive shear at D. Express your answer using three significant figures. Submit = ΑΣΦ ↓↑ vec Request Answer vec ? ? k.ft lb

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