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Shawn Kenny, Ph.D., P.Eng. Assistant Professor Faculty of Engineering and Applied Science Memorial University of Newfoundland ENGI.

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Presentation on theme: "Shawn Kenny, Ph.D., P.Eng. Assistant Professor Faculty of Engineering and Applied Science Memorial University of Newfoundland ENGI."— Presentation transcript:

1 Shawn Kenny, Ph.D., P.Eng. Assistant Professor Faculty of Engineering and Applied Science Memorial University of Newfoundland spkenny@engr.mun.ca ENGI 1313 Mechanics I Lecture 28:Method of Joints

2 ENGI 1313 Statics I – Lecture 28© 2007 S. Kenny, Ph.D., P.Eng. 2 Lecture 28 Objective to understand the method of joints for establishing forces in truss members

3 ENGI 1313 Statics I – Lecture 28© 2007 S. Kenny, Ph.D., P.Eng. 3 Recall 2D Rigid Body Equilibrium Support Reactions AyAy AxAx CyCy

4 ENGI 1313 Statics I – Lecture 28© 2007 S. Kenny, Ph.D., P.Eng. 4 Method of Joints Joint Equilibrium  FBD at a joint  Particle equilibrium concepts  Solve for member forces

5 ENGI 1313 Statics I – Lecture 28© 2007 S. Kenny, Ph.D., P.Eng. 5 Method of Joints (cont.) Joint Forces  Tension pulls on joint + convention  Compression pushes on joint - convention  Newton’s 3 rd Law T pull on member C push on member

6 ENGI 1313 Statics I – Lecture 28© 2007 S. Kenny, Ph.D., P.Eng. 6 Method of Joints Equilibrium Equations Two-Force Member  Coplanar and concurrent force system  What does this mean? Necessary for Equilibrium Automatically Satisfied

7 ENGI 1313 Statics I – Lecture 28© 2007 S. Kenny, Ph.D., P.Eng. 7 Procedure for Method of Joints 1. Find Support Reactions  Typically required but not always necessary 2. Draw FBD at Truss Joint  Select joint with 1 known force and at most 2 unknowns  Assume forces are tensile (positive scalar) unless obvious by inspection 3. Apply Equations of Equilibrium 4. Repeat for all Joints

8 ENGI 1313 Statics I – Lecture 28© 2007 S. Kenny, Ph.D., P.Eng. 8 Joint Free Body Diagrams

9 ENGI 1313 Statics I – Lecture 28© 2007 S. Kenny, Ph.D., P.Eng. 9 Coordinate Axes Orientation

10 ENGI 1313 Statics I – Lecture 28© 2007 S. Kenny, Ph.D., P.Eng. 10 Coordinate Axes Orientation (cont.) Resolve F CB Find Support Reactions

11 ENGI 1313 Statics I – Lecture 28© 2007 S. Kenny, Ph.D., P.Eng. 11 Coordinate Axes Orientation (cont.) Resolve F CB Find Support Reactions Resolve F CD

12 ENGI 1313 Statics I – Lecture 28© 2007 S. Kenny, Ph.D., P.Eng. 12 Example 28-01 Determine the force in each member. Indicate whether the member is in tension (T) or compression (C).

13 ENGI 1313 Statics I – Lecture 28© 2007 S. Kenny, Ph.D., P.Eng. 13 Example 28-01 (cont.) Where to Start?  Examine joints # Known Forces? # Unknown Forces? F BA F BC 500N

14 ENGI 1313 Statics I – Lecture 28© 2007 S. Kenny, Ph.D., P.Eng. 14 Example 28-01 (cont.) Joint B

15 ENGI 1313 Statics I – Lecture 28© 2007 S. Kenny, Ph.D., P.Eng. 15 Example 28-01 (cont.) Joint C

16 ENGI 1313 Statics I – Lecture 28© 2007 S. Kenny, Ph.D., P.Eng. 16 Example 28-01 (cont.) Joint A

17 ENGI 1313 Statics I – Lecture 28© 2007 S. Kenny, Ph.D., P.Eng. 17 Example 28-01 (cont.) Support Reactions  More than 2 unknowns at each joint then determine reactions first  For this case not necessary but to show equivalence AyAy AxAx CyCy

18 ENGI 1313 Statics I – Lecture 28© 2007 S. Kenny, Ph.D., P.Eng. 18 Example 28-01 (cont.) Results Summary

19 ENGI 1313 Statics I – Lecture 28© 2007 S. Kenny, Ph.D., P.Eng. 19 References Hibbeler (2007) http://wps.prenhall.com/esm_hibbeler_eng mech_1

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