Sample 5. Determine the tension in the cable and the horizontal and vertical components of reaction at the pin A. Neglect the size of the pulley.

Similar documents
b) Fluid friction: occurs when adjacent layers in a fluid are moving at different velocities.

TUTORIAL SHEET 1. magnitude of P and the values of ø and θ. Ans: ø =74 0 and θ= 53 0

Statics Chapter II Fall 2018 Exercises Corresponding to Sections 2.1, 2.2, and 2.3

Announcements. Equilibrium of a Rigid Body

Eng Sample Test 4

TEST REPORT. Question file: P Copyright:

5.2 Rigid Bodies and Two-Dimensional Force Systems

PROBLEMS. m s TAC. m = 60 kg/m, determine the tension in the two supporting cables and the reaction at D.

Force and Moment. Figure 1 Figure 2

Equilibrium & Elasticity

Equilibrium of a Rigid Body. Engineering Mechanics: Statics

SOLUTION 8 1. a+ M B = 0; N A = 0. N A = kn = 16.5 kn. Ans. + c F y = 0; N B = 0

Engineering Mechanics. Friction in Action

Chapter Objectives. Copyright 2011 Pearson Education South Asia Pte Ltd

Calculate the force F needed to produce a horizontal component of 300 N on the sledge (1)

Equilibrium of a Particle

The case where there is no net effect of the forces acting on a rigid body

STRESS. Bar. ! Stress. ! Average Normal Stress in an Axially Loaded. ! Average Shear Stress. ! Allowable Stress. ! Design of Simple Connections

The University of Melbourne Engineering Mechanics

1 MR SAMPLE EXAM 3 FALL 2013

STATICS. Bodies. Vector Mechanics for Engineers: Statics VECTOR MECHANICS FOR ENGINEERS: Design of a support

7.6 Journal Bearings

Name. ME 270 Fall 2005 Final Exam PROBLEM NO. 1. Given: A distributed load is applied to the top link which is, in turn, supported by link AC.

The centroid of an area is defined as the point at which (12-2) The distance from the centroid of a given area to a specified axis may be found by

Code No: R Set No. 1

Questions from all units

SOLUTION 8 7. To hold lever: a+ M O = 0; F B (0.15) - 5 = 0; F B = N. Require = N N B = N 0.3. Lever,

PHY 1150 Doug Davis Chapter 8; Static Equilibrium 8.3, 10, 22, 29, 52, 55, 56, 74

EQUILIBRIUM OF RIGID BODIES

11.1 Virtual Work Procedures and Strategies, page 1 of 2

6.6 FRAMES AND MACHINES APPLICATIONS. Frames are commonly used to support various external loads.

EQUILIBRIUM OF A RIGID BODY & FREE-BODY DIAGRAMS

Equilibrium. Rigid Bodies VECTOR MECHANICS FOR ENGINEERS: STATICS. Eighth Edition CHAPTER. Ferdinand P. Beer E. Russell Johnston, Jr.

However, the friction forces are limited in magnitude and will not prevent motion if sufficiently large forces are applied.

if the initial displacement and velocities are zero each. [ ] PART-B

1. Replace the given system of forces acting on a body as shown in figure 1 by a single force and couple acting at the point A.

ENGR-1100 Introduction to Engineering Analysis. Lecture 13


Phys101 Third Major-161 Zero Version Coordinator: Dr. Ayman S. El-Said Monday, December 19, 2016 Page: 1

STATICS. Friction VECTOR MECHANICS FOR ENGINEERS: Eighth Edition CHAPTER. Ferdinand P. Beer E. Russell Johnston, Jr.

KINGS COLLEGE OF ENGINEERING ENGINEERING MECHANICS QUESTION BANK UNIT I - PART-A

Engineering Mechanics. Equivalent force systems: problems

Determine the resultant internal loadings acting on the cross section at C of the beam shown in Fig. 1 4a.

5. Plane Kinetics of Rigid Bodies

Name: Fall 2014 CLOSED BOOK

I B.TECH EXAMINATIONS, JUNE ENGINEERING MECHANICS (COMMON TO CE, ME, CHEM, MCT, MMT, AE, AME, MIE, MIM)

Ch. 3: Equilibrium. 3.0 Outline Mechanical System Isolation (FBD) 2-D Systems Equilibrium Conditions 3-D Systems Equilibrium Conditions. 3.

Jurong Junior College 2014 J1 H1 Physics (8866) Tutorial 3: Forces

Announcements. Trusses Method of Joints

B.Tech. Civil (Construction Management) / B.Tech. Civil (Water Resources Engineering)

5.3 Rigid Bodies in Three-Dimensional Force Systems

EQUILIBRIUM OF A RIGID BODY

AE 688 Dynamics And Vibration Assignment No. 2. with the brakes slightly applied so that the speed v is constant. The slope decreases abruptly to θ

D : SOLID MECHANICS. Q. 1 Q. 9 carry one mark each. Q.1 Find the force (in kn) in the member BH of the truss shown.

When a rigid body is in equilibrium, both the resultant force and the resultant couple must be zero.

ME C85 / CE C30 Midterm 1 Exam Monday October 4, 2010

SOLUTION 4 1. If A, B, and D are given vectors, prove the distributive law for the vector cross product, i.e., A : (B + D) = (A : B) + (A : D).

DYNAMICS ME HOMEWORK PROBLEM SETS

E 490 FE Exam Prep. Engineering Mechanics

Mechanics Questions. (Throughout this document take the acceleration under gravity to be g = 9.81ms 2 ).

Engineering Mechanics: Statics in SI Units, 12e

NAME: Section: RIN: Tuesday, May 19, :00 11:00. Problem Points Score Total 100

When a rigid body is in equilibrium, both the resultant force and the resultant couple must be zero.

VALLIAMMAI ENGINEERING COLLEGE SRM NAGAR, KATTANKULATHUR DEPARTMENT OF MECHANICAL ENGINEERING

EQUATIONS OF EQUILIBRIUM & TWO- AND THREE-FORCE MEMEBERS

3D Force Couple System and Resultant. Q.No.1: Replace the force system by an equivalent force and couple moment at point A.

UNIT-1 DEPARTMENT OF MECHANICAL ENGINEERING SUBJECT: ENGINEERING MECHANICS (ME101ME/201) Q.1. Q.2. D E. C 1.5m. 60 o A B.

3.1 CONDITIONS FOR RIGID-BODY EQUILIBRIUM

Plane Motion of Rigid Bodies: Forces and Accelerations

Reg. No. : Question Paper Code : B.E./B.Tech. DEGREE EXAMINATION, NOVEMBER/DECEMBER Second Semester.

Exam 3 PREP Chapters 6, 7, 8

The Laws of Motion. Newton s first law Force Mass Newton s second law Gravitational Force Newton s third law Examples

In your answer, you should use appropriate technical terms, spelled correctly [1]

AP Physics 1 Rotational Motion Practice Test

Similar to trusses, frames are generally fixed, load carrying structures.

2014 MECHANICS OF MATERIALS

C7047. PART A Answer all questions, each carries 5 marks.

Physics 201 Exam 3 (Monday, November 5) Fall 2012 (Saslow)

HATZIC SECONDARY SCHOOL

h p://edugen.wileyplus.com/edugen/courses/crs1404/pc/c06/c2hlch... 1 of 4 16-Sep-12 19:20 CHAPTER 6

4.0 m s 2. 2 A submarine descends vertically at constant velocity. The three forces acting on the submarine are viscous drag, upthrust and weight.

Dry Friction Static vs. Kinetic Angles

Student AP Physics 1 Date. Newton s Laws B FR

Apex Grammar School O & A Level Evening Classes. Physics EVALUATION TEST PAPER. REAL EXAMINATION QUESTIONS for Secondary 4

Addis Ababa University Addis Ababa Institute of Technology School Of Mechanical and Industrial Engineering Extension Division Assignment 2

D : SOLID MECHANICS. Q. 1 Q. 9 carry one mark each.

EQUATIONS OF EQUILIBRIUM & TWO- AND THREE-FORCE MEMBERS

h p://edugen.wileyplus.com/edugen/courses/crs1404/pc/b02/c2hlch...

Engineering Mechanics: Statics

Name ID Section. 1. One mile is equal to 1609 m; 1 hour is equal to 3600 s. The highway speed limit of 65 mph is equivalent to the speed of:

Consider two students pushing with equal force on opposite sides of a desk. Looking top-down on the desk:

Core Mathematics M1. Dynamics (Planes)

Physics P201 D. Baxter/R. Heinz. EXAM #3 November 21, :00 9:00 PM INSTRUCTIONS

15-30 Chapter 15: Homework Problems

Equilibrium: Forces and Torques

OCR Maths M2. Topic Questions from Papers. Statics

Final Exam - Spring

Chapter 10: Friction A gem cannot be polished without friction, nor an individual perfected without

TOPIC B: MOMENTUM EXAMPLES SPRING 2019

MEE224: Engineering Mechanics Lecture 4

Transcription:

Sample 1 The tongs are designed to handle hot steel tubes which are being heat-treated in an oil bath. For a 20 jaw opening, what is the minimum coefficient of static friction between the jaws and the tube which will enable the tongs to grip the tube without slipping

Sample 2 The system of two blocks, cable, and fixed pulley is initially at rest. Determine the horizontal force P necessary to cause motion when (a) P is applied to the 5-kg block and (b) P is applied to the 10-kg block. Determine the corresponding tension T in the cable for each case.

Sample 3 Replace the system of two forces and couple by a wrench. Determine the magnitude of the moment M of the wrench, the magnitude of the force R of the wrench, and the coordinate of the point P in the x-y plane through which R passes.

Sample 4 The hook wrench or pin spanner is used to turn shafts and collars. If a moment of 80 N.m is required to turn the 200-mm-diameter collar about its center O under the action of the applied force P, determine the contact force R on the smooth surface at A. Engagement of the pin at B may be considered to occur at the periphery of the collar.

Sample 5 Determine the tension in the cable and the horizontal and vertical components of reaction at the pin A. Neglect the size of the pulley. (T = 267.86 kn A x = 214.29 kn A y = 128.58 kn )

Sample 6 Determine the horizontal and vertical components of reaction at pin C. (C x = 800 N C y = 400 N )

Sample 7 The wall crane supports a load of 700 N. Determine the horizontal and vertical components of reaction at the pins A and D. Also, what is the force in the cable at the winch W? (T = 350 N A x = 1878.11 N A y = 700 N D x = 1703.11 N D y = 1703.11 N)

Sample 8 A man having a weight of 750 N ( 75 kg) attempts to lift himself using one of the two methods shown. Determine the total force he must exert on bar AB in each case and the normal reaction he exerts on the platform at C. The platform has a weight of 150 N ( 15 kg). ((a) F = 900 N, N = 1650 N (b) F = 450 N, N = 300 N)

Sample 9 The uniform rectangular panel ABCD has a mass of 40 kg and is hinged at its corners A and B to the fixed vertical surface. A wire from E to D keeps edges BC and AD horizontal. Hinge A can support thrust along the hinge axis AB, whereas hinge B supports force normal to the hinge axis only. Find the tension T in the wire and the magnitude B of the force supported by hinge B.

Sample 10 The cable CED can sustain a maximum tension of 800 N before it fails. Determine the greatest vertical force F that can be applied to the boom. Also, what are the x, y, z components of reaction at the ball-and-socket joint A? (F = 1311.96 N A x = 0 N A y = 1311.96 N A z = 655.98 N)

Sample 11 The member is supported by a pin at A and a cable BC. If the load at D is 300 N ( 30kg), determine the x, y, z components of reaction at these supports. (T BC = 1050 N A x = -450 N A y = 900 N A z = 0 N M y = -60 Nm M z = -90 Nm)

Sample 11 The pipe ACDE is supported by ball-and-socket joints at A and E and by the wire DF. Determine the tension in the wire when a 640N load is applied at B as shown.

Sample 12 The two uniform slender bars constructed from the same stock material are freely pinned together at B. Determine the minimum angle θ at which slipping does not occur at either contact point A or C. The coefficient of static friction at both A and C is μ s = 0.50. Consider only motion in the vertical plane shown.

Sample 13 Three boxes are placed on the incline in contact with each other and released from rest. The coefficients of static friction under boxes A, B, and C are 0.30, 0.20, and 0.35, respectively. Describe what happens.

Sample 14 Determine the smallest couple moment which can be applied to the 20-N ( 2-kg) wheel that will cause impending motion. The cord is attached to the 30-N ( 3-kg) block, and the coefficients of static friction are μ B = 0.2 and μ D = 0.3. (M = 1.2 Nm) 0.15 m M C 0.15 m 0.3 m B D

Sample 15 Two blocks A and B, each having a mass of 6 kg, are connected by the linkage shown. If the coefficient of static friction at the contacting surfaces is μ s = 0.5, determine the largest vertical force P that may be applied to pin C of the linkage without causing the blocks to move. Neglect the weight of the links. (P = 23.887 N) C B A 30º P 30º

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback