(^294) A Textbook of Engineering Mechanics
Now draw vector diagram as shown in Fig. 14.6 (b) and as discussed below :
- Select some suitable point 1 and draw a vertical line 1-2 equal to 5 kN to some suitable
scale to represent the load 5 kN at C. Similarly, draw 2-3 equal to 6 kN to the scale to
represent the load 6 kN at D. - Now cut off 3-4 equal to 5 kN to the scale to represent the reaction RB. Thus 4-1 will
represent the reaction RA to the scale. - Now draw vector diagram for the joint A. For doing so through 1, draw 1-5 parallel to AC
and through 4, draw 4-5 parallel to AE meeting the first line at 5. Now 1-5-4-1 is the
vector diagram for joint A, whose directions follow 1-5, 5-4 and 4-1. Similarly, draw
vector diagrams for the joints B, C, D and E as shown in Fig. 14.6 (b).
Now measuring the various sides of the vector diagram, the results are tabulated here :
S. No. Member Magnitude of force in kN Nature of force
1 AC (1-5) 6.9 Compression
2 CD (2-6) 7.0 Compression
3 BD (3-7) 10.0 Compression
4 AE (4-5) 3.5 Tension
5 CE (5-6) 5.2 Tension
6 DE (6-7) 5.2 Compression
7 BE (4-7) 8.7 Tension
Example 14.3. A king post truss of 8 m span is loaded as shown in Fig. 14.7.Fig. 14.7.
Find the forces in each member of the truss and tabulate the results.
Solution. Since the truss is symmetrical in geometry and loading, therefore reaction at the
left hand support,
12 2 21
4kN
AE 2
RR
++++
== =
First of all, draw the space diagram and name the members and forces according to Bow’s
notations as shown in Fig. 14.8 (a).Fig. 14.8.