FORCES IN STRUCTURES 53i.e. F 2 = 9 .96 kN,
F 5 =−4kNand F 6 =− 7 .5kN
The above answers can be seen to be the same as
those obtained in Problem 10.
Now try the following exercise
Exercise 22 Further problems on the
method of sectionsDetermine the internal member forces of the
following trusses, by the method of sections:- Figure 4.23 (page 46)
[R 1 = 3 .0kN, R 2 = 1 .0kN,
1–2, 1.73 kN, 1–3,−3.46 kN,
2–3,−2.0 kN]- Figure 4.24 (page 46)
⎡
⎢
⎢
⎣R 1 =− 2 .61 kN, R 2 = 2 .61 kN,
H 2 =6kN, 1–2,−1.5 kN,
1–3, 3.0 kN, 2–3,−5.2 kN⎤⎥
⎥
⎦- Figure 4.25 (page 46)
⎡
⎢
⎢
⎣R 1 = 5 .0kN, R 2 = 1 .0kN,
H 1 = 4 .0kN 1–2,1.0kN,
1–3,−7.07 kN, 2–3,−1.41 kN⎤⎥
⎥
⎦- Figure 4.26 (page 46)
⎡ ⎢ ⎢ ⎢ ⎢ ⎢ ⎢ ⎢ ⎢ ⎢ ⎢ ⎣
R 1 = 5 .0kN, R 2 = 7 .0kN,
1–3,−10.0 kN, 1–6,−8.7 kN,
3–4,−8.0 kN, 3–6,−2.0 kN,
4–6, 4.0 kN, 4–5, 8.0 kN,
5–6,−6.0 kN, 5–2,−14.0 kN,
6–2, 12.1 kN⎤ ⎥ ⎥ ⎥ ⎥ ⎥ ⎥ ⎥ ⎥ ⎥ ⎥ ⎦Exercise 23 Short answer questions on
forces in structures- Where must the loads be applied on a pin-
jointed truss?
2. If there are three unknown forces in a
truss, how many simultaneous equations
are required to determine these unknown
forces?
3. When is a truss said to be statically
indeterminate?
4. For a plane pin-jointed truss, what are the
maximum number of unknowns that can
exist at a joint to analyse that joint without
analysing another joint before it?
Exercise 24 Multi-choice questions on
forces in frameworks (Ans-
wers on page 284)- Is the truss of Figure 4.42:
F 1F 2Figure 4.42(a) a mechanism
(b) statically determinate
(c) statically indeterminate- The value ofF 1 in Figure 4.43 is:
(a) 1 kN (b) 0.5 kN (c) 0.707 kN1 kNF (^230) °F 1
Figure 4.43
- The value ofF 2 in Figure 4.43 is:
(a) 0.707 kN (b) 0.5 kN (c) 0