Engineering Mechanics

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(^320) „„„„„ A Textbook of Engineering Mechanics
S. No. Member Magnitude of force in kN Nature of force
1 BL, IX 15,720 Compression
2 LM, WX 1,750 Compression
3 CM, HW 14,750 Compression
4 MN, VW 2,000 Tension
5 DP, GT 13,780 Compression
6 NO, UV 3,500 Compression
7 OP, TU 1,875 Tension
8 PQ, ST 1,685 Compression
9 EQ, FS 12,810 Compression
10 KL, KX 14,050 Tension
11 NK, VK 12,060 Tension
12 OR, RU 4,000 Tension
13 QR, RS 5,815 Tension
14 RK 8,080 Tension
EXERCISE 14.3



  1. A truss shown in Fig. 14.55 is subjected to two point loads at B and F. Find the forces in all
    the members of the truss and tabulate the results.
    Ans. AB = 1.0 kN (Compression)
    BC= 2.25 kN (Compression)
    CD= 2.25 kN (Compression)
    DE= 3.0 kN (Compression)
    AF = 1.5 kN (Tension)
    BF = 1.25 kN (Tension)
    CF= 0
    DF= 3.75 kN (Tension)
    DF= 0

  2. A truss is subjected to two point loads at A as shown in Fig. 14.56. Find by any method, the
    forces in all the members of the truss.
    Ans. AB = 20.0 kN (Compression)
    BC= 0
    AD= 10.0 kN (Compression)
    BD= 14.1 kN (Tension)
    BF = 14.1 kN (Compression)
    CF= 0
    DE= 10.0 kN (Compression)
    EF = 10.0 kN (Tension)
    DG= 0
    GE= 14.1 kN (Tension)
    EH= 14.1 kN (Compression)
    FH= 10.0 kN (Compression)
    GH= 10.0 kN (Tension)


Fig. 14.55.

1.5 kN

4kN

3m 3m

4m

A

BC
D

E
F

Fig. 14.56.

20 kN

10 kN
3m 3m

3m

3m

A B C

D E F

G H
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