chapter 6 : structural analysis static textbook solution
TRANSCRIPT
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•6–1. Determine the force in each member of the truss,and state if the members are in tension or compression.
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600 N
900 N
2 m
2 m
2 m
A
CE
D
B
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6–2. The truss, used to support a balcony, is subjected tothe loading shown. Approximate each joint as a pin anddetermine the force in each member. State whether themembers are in tension or compression. Set P2 = 400 lb.
P1 = 600 lb,
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45�
4 ft 4 ft
45�
D
E
CB
P2
A
4 ft
P1
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6–3. The truss, used to support a balcony, is subjected tothe loading shown. Approximate each joint as a pin anddetermine the force in each member. State whether themembers are in tension or compression. Set P2 = 0.
P1 = 800 lb,
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45�
4 ft 4 ft
45�
D
E
CB
P2
A
4 ft
P1
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*6–4. Determine the force in each member of the trussand state if the members are in tension or compression.Assume each joint as a pin. Set P = 4 kN.
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A
E
D
CB
PP
2P
4 m
4 m 4 m
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•6–5. Assume that each member of the truss is made of steelhaving a mass per length of 4 kg/m. Set , determine theforce in each member, and indicate if the members are intension or compression. Neglect the weight of the gusset platesand assume each joint is a pin. Solve the problem by assumingthe weight of each member can be represented as a verticalforce, half of which is applied at the end of each member.
P = 0
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A
E
D
CB
PP
2P
4 m
4 m 4 m
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6–6. Determine the force in each member of the truss andstate if the members are in tension or compression. Set
and .P2 = 1.5 kNP1 = 2 kN
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A
E D
30� 30�
B
C
3 m 3 m
P2P1
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6–7. Determine the force in each member of the truss andstate if the members are in tension or compression. Set
.P1 = P2 = 4 kN
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A
E D
30� 30�
B
C
3 m 3 m
P2P1
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*6–8. Determine the force in each member of the truss,and state if the members are in tension or compression. Set
.P = 800 lb
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3 ft
3 ft
3 ft
P
3 ft
500 lb
ACB
DF E
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411
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•6–9. Remove the 500-lb force and then determine thegreatest force P that can be applied to the truss so that noneof the members are subjected to a force exceeding either800 lb in tension or in compression.600 lb
3 ft
3 ft
3 ft
P
3 ft
500 lb
ACB
DF E
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6–10. Determine the force in each member of the trussand state if the members are in tension or compression. Set
, .P2 = 0P1 = 800 lb
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6 ft
AG
B
C
F
D
E
P1
P2
4 ft 4 ft 4 ft 4 ft
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6–11. Determine the force in each member of the trussand state if the members are in tension or compression. Set
, .P2 = 400 lbP1 = 600 lb
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6 ft
AG
B
C
F
D
E
P1
P2
4 ft 4 ft 4 ft 4 ft
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414
*6–12. Determine the force in each member of the trussand state if the members are in tension or compression. Set
, .P2 = 100 lbP1 = 240 lb
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B
C D
A
12 ft
5 ft
P1
P2
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•6–13. Determine the largest load that can be appliedto the truss so that the force in any member does not exceed500 lb (T) or 350 lb (C). Take .P1 = 0
P2
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B
C D
A
12 ft
5 ft
P1
P2
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6–14. Determine the force in each member of the truss,and state if the members are in tension or compression. Set
.P = 2500 lb
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4 ft
4 ft
1200 lb 1200 lbP
4 ft 4 ft 4 ft
A B
F
E D C
G
30� 30�
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6–15. Remove the 1200-lb forces and determine thegreatest force P that can be applied to the truss so that noneof the members are subjected to a force exceeding either2000 lb in tension or 1500 lb in compression.
4 ft
4 ft
1200 lb 1200 lbP
4 ft 4 ft 4 ft
A B
F
E D C
G
30� 30�
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*6–16. Determine the force in each member of the truss,and state if the members are in tension or compression. Set
.P = 5 kN
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AC
B
D
E
P
1.5 m
1.5 m
2 m2 m
1.5 m
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419
•6–17. Determine the greatest force P that can be appliedto the truss so that none of the members are subjected to aforce exceeding either in tension or incompression.
2 kN2.5 kN
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AC
B
D
E
P
1.5 m
1.5 m
2 m2 m
1.5 m
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420
6–18. Determine the force in each member of the truss,and state if the members are in tension or compression.
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3 ft
4 ft
900 lb600 lb
4 ft 4 ft
A B
C
DEF
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421
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6–19. The truss is fabricated using members having aweight of . Remove the external forces from thetruss, and determine the force in each member due to theweight of the members. State whether the members are intension or compression. Assume that the total force actingon a joint is the sum of half of the weight of every memberconnected to the joint.
10 lb>ft
3 ft
4 ft
900 lb600 lb
4 ft 4 ft
A B
C
DEF
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422
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*6–20. Determine the force in each member of the trussand state if the members are in tension or compression. Theload has a mass of 40 kg.
G
A
B
FC
ED
0.1 m
6 m
2.5 m
3.5 m
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424
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•6–21. Determine the largest mass m of the suspendedblock so that the force in any member does not exceed 30 kN (T) or 25 kN (C).
G
A
B
FC
ED
0.1 m
6 m
2.5 m
3.5 m
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425
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6–22. Determine the force in each member of the truss,and state if the members are in tension or compression.
A
E D
BC
2 m
400 N
45� 45�45� 45�
2 m
600 N
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426
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6–23. The truss is fabricated using uniform membershaving a mass of . Remove the external forces fromthe truss, and determine the force in each member due tothe weight of the truss. State whether the members are intension or compression. Assume that the total force actingon a joint is the sum of half of the weight of every memberconnected to the joint.
5 kg>m
A
E D
BC
2 m
400 N
45� 45�45� 45�
2 m
600 N
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427
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*6–24. Determine the force in each member of the truss,and state if the members are in tension or compression. Set
.P = 4 kN
P
3 m
A CB
E
D
F
P
3 m 3 m3 m
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•6–25. Determine the greatest force P that can be appliedto the truss so that none of the members are subjected to aforce exceeding either in tension or incompression.
1 kN1.5 kN
P
3 m
A CB
E
D
F
P
3 m 3 m3 m
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6–26. A sign is subjected to a wind loading that exertshorizontal forces of 300 lb on joints B and C of one of theside supporting trusses. Determine the force in eachmember of the truss and state if the members are in tensionor compression.
A
C
B
D
E
13 ft
13 ft
12 ft
5 ft
300 lb
300 lb
12 ft
45�
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6–27. Determine the force in each member of the doublescissors truss in terms of the load P and state if the membersare in tension or compression.
ADFE
P P
B C
L/3
L/3L/3L/3
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431
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*6–28. Determine the force in each member of the truss interms of the load P, and indicate whether the members arein tension or compression.
A
B
C
DF
E
P
d
d
d d/2 d/2 d
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432
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•6–29. If the maximum force that any member can supportis 4 kN in tension and 3 kN in compression, determine themaximum force P that can be applied at joint B. Take
.d = 1 m
A
B
C
DF
E
P
d
d
d d/2 d/2 d
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6–30. The two-member truss is subjected to the force of300 lb. Determine the range of for application of the load sothat the force in either member does not exceed 400 lb (T) or200 lb (C).
uB
CA
4 ft
3 ft
300 lb
u
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6–31. The internal drag truss for the wing of a lightairplane is subjected to the forces shown. Determine theforce in members BC, BH, and HC, and state if themembers are in tension or compression.
2 ft
A B C D
J I H G
E
F
2 ft 2 ft 2 ft 1.5 ft
80 lb 80 lb60 lb
40 lb
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436
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*6–32. The Howe bridge truss is subjected to the loadingshown. Determine the force in members HD, CD, and GD,and state if the members are in tension or compression.
A EB C D
IJ
30 kN20 kN 20 kN
40 kN
H G F
4 m
16 m, 4@4m
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437
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•6–33. The Howe bridge truss is subjected to the loadingshown. Determine the force in members HI, HB, and BC,and state if the members are in tension or compression.
A EB C D
IJ
30 kN20 kN 20 kN
40 kN
H G F
4 m
16 m, 4@4m
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438
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6–34. Determine the force in members JK, CJ, and CD ofthe truss, and state if the members are in tension orcompression.
AB C D FE
G
H
IJ
L
K
6 kN8 kN5 kN4 kN
3 m
2 m 2 m 2 m 2 m 2 m 2 m
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439
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6–35. Determine the force in members HI, FI, and EF ofthe truss, and state if the members are in tension orcompression.
AB C D FE
G
H
IJ
L
K
6 kN8 kN5 kN4 kN
3 m
2 m 2 m 2 m 2 m 2 m 2 m
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440
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*6–36. Determine the force in members BC, CG, and GFof the Warren truss. Indicate if the members are in tensionor compression.
A E
B C D
6 kN8 kN
G F
3 m
3 m 3 m 3 m
3 m
3 m3 m
•6–37. Determine the force in members CD, CF, and FGof the Warren truss. Indicate if the members are in tensionor compression.
A E
B C D
6 kN8 kN
G F
3 m
3 m 3 m 3 m
3 m
3 m3 m
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441
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6–38. Determine the force in members DC, HC, and HI ofthe truss, and state if the members are in tension orcompression.
A
C
G
E D
HF
IB
2 m 2 m 2 m
1.5 m
50 kN40 kN
40 kN
30 kN
1.5 m
1.5 m
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442
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6–39. Determine the force in members ED, EH, and GHof the truss, and state if the members are in tension orcompression.
A
C
G
E D
HF
IB
2 m 2 m 2 m
1.5 m
50 kN40 kN
40 kN
30 kN
1.5 m
1.5 m
6 Solutions 44918 1/26/09 1:46 PM Page 442
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443
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*6–40. Determine the force in members GF, GD, and CDof the truss and state if the members are in tension orcompression. 260 lb
4 ft 4 ft
4 ft
3 ft 3 ft
4 ft 4 ft
5
1213
AH G F
B
C
D
E
•6–41. Determine the force in members BG, BC, and HGof the truss and state if the members are in tension orcompression. 260 lb
4 ft 4 ft
4 ft
3 ft 3 ft
4 ft 4 ft
5
1213
AH G F
B
C
D
E
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444
6–42. Determine the force in members IC and CG of thetruss and state if these members are in tension orcompression. Also, indicate all zero-force members.
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1.5 m 1.5 m 1.5 m
AH
B C D
JI
G FE
1.5 m
2 m
2 m
6 kN 6 kN
6–43. Determine the force in members JE and GF of thetruss and state if these members are in tension orcompression. Also, indicate all zero-force members.
1.5 m 1.5 m 1.5 m
AH
B C D
JI
G FE
1.5 m
2 m
2 m
6 kN 6 kN
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445
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*6–44. Determine the force in members JI, EF, EI, and JEof the truss, and state if the members are in tension orcompression.
8 ft
8 ft
8 ft
900 lb
1500 lb1000 lb1000 lb
A G
N BH
F
M
C D EI
JL K
8 ft 8 ft 8 ft 8 ft 8 ft 8 ft
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446
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•6–45. Determine the force in members CD, LD, and KLof the truss, and state if the members are in tension orcompression.
8 ft
8 ft
8 ft
900 lb
1500 lb1000 lb1000 lb
A G
N BH
F
M
C D EI
JL K
8 ft 8 ft 8 ft 8 ft 8 ft 8 ft
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447
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6–46. Determine the force developed in members BC andCH of the roof truss and state if the members are in tensionor compression.
1.5 m
2 m2 m
1 m 1 m
0.8 m
2 kN
1.5 kN
AH
BD
G
C
F E
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448
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6–47. Determine the force in members CD and GF of thetruss and state if the members are in tension orcompression. Also indicate all zero-force members.
1.5 m
2 m2 m
1 m 1 m
0.8 m
2 kN
1.5 kN
AH
BD
G
C
F E
6 Solutions 44918 1/26/09 1:46 PM Page 448
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449
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*6–48. Determine the force in members IJ, EJ, and CD ofthe Howe truss, and state if the members are in tension orcompression.
2 kN3 kN
4 kN5 kN
4 kN
6 kN
5 kN
BA
C D E FG
H
I
J
K
L
2 m
4 m
2 m 2 m 2 m 2 m 2 m
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450
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•6–49. Determine the force in members KJ, KC, and BCof the Howe truss, and state if the members are in tension orcompression.
2 kN3 kN
4 kN5 kN
4 kN
6 kN
5 kN
BA
C D E FG
H
I
J
K
L
2 m
4 m
2 m 2 m 2 m 2 m 2 m
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451
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6–50. Determine the force in each member of the trussand state if the members are in tension or compression. Set
, .P2 = 10 kNP1 = 20 kN
AG F
E
DCB
P2P1
1.5 m 1.5 m 1.5 m 1.5 m
2 m
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452
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453
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6–51. Determine the force in each member of the trussand state if the members are in tension or compression. Set
, .P2 = 20 kNP1 = 40 kN
AG F
E
DCB
P2P1
1.5 m 1.5 m 1.5 m 1.5 m
2 m
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454
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455
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*6–52. Determine the force in members KJ, NJ, ND, andCD of the K truss. Indicate if the members are in tension orcompression. Hint: Use sections aa and bb.
1800 lb
15 ft
15 ft
20 ft 20 ft 20 ft 20 ft 20 ft
A B
I H
20 ft
L
M N O P
GFEDC
1500 lb1200 lb
a b
JKa b
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456
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•6–53. Determine the force in members JI and DE of the K truss. Indicate if the members are in tension orcompression.
1800 lb
15 ft
15 ft
20 ft 20 ft 20 ft 20 ft 20 ft
A B
I H
20 ft
L
M N O P
GFEDC
1500 lb1200 lb
a b
JKa b
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457
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6–54. The space truss supports a force. Determine the force in
each member, and state if the members are in tension orcompression.
F = 5-500i + 600j + 400k6 lb
A
B
C
D
x
y
z
F
8 ft
6 ft
6 ft
6 ft
6 ft
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458
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459
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6–55. The space truss supports a force. Determine the force in each
member, and state if the members are in tension orcompression.
F = 5600i + 450j - 750k6 lb
A
B
C
D
x
y
z
F
8 ft
6 ft
6 ft
6 ft
6 ft
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461
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*6–56. Determine the force in each member of the spacetruss and state if the members are in tension orcompression. The truss is supported by ball-and-socketjoints at A, B, and E. Set . Hint: The supportreaction at E acts along member EC. Why?
F = 5800j6 NF
D
A
z
2 m
x
y
B
C
E
5 m
1 m
2 m1.5 m
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462
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•6–57. Determine the force in each member of the spacetruss and state if the members are in tension orcompression. The truss is supported by ball-and-socketjoints at A, B, and E. Set . Hint: Thesupport reaction at E acts along member EC. Why?
F = 5-200i + 400j6 N
FD
A
z
2 m
x
y
B
C
E
5 m
1 m
2 m1.5 m
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6–58. Determine the force in members BE, DF, and BC ofthe space truss and state if the members are in tension orcompression.
2 m
2 m
2 m
E
A
3 m
F
D
C
B
{�2k} kN
{�2k} kN
2 m
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6–59. Determine the force in members AB, CD, ED, andCF of the space truss and state if the members are in tensionor compression.
2 m
2 m
2 m
E
A
3 m
F
D
C
B
{�2k} kN
{�2k} kN
2 m
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465
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*6–60. Determine the force in the members AB, AE, BC,BF, BD, and BE of the space truss, and state if the membersare in tension or compression.
F
E
D
x
z
y
C
BA
4 ft
4 ft2 ft
2 ft300 lb
600 lb
400 lb
4 ft
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466
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467
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•6–61. Determine the force in the members EF, DF, CF,and CD of the space truss, and state if the members are intension or compression.
F
E
D
x
z
y
C
BA
4 ft
4 ft2 ft
2 ft300 lb
600 lb
400 lb
4 ft
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468
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6–62. If the truss supports a force of ,determine the force in each member and state if themembers are in tension or compression.
F = 200 N
y
D
E
F
x
z
C
B
A
200 mm
200 mm
200 mm
200 mm
500 mm
300 mm
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6–63. If each member of the space truss can support amaximum force of 600 N in compression and 800 N intension, determine the greatest force F the truss cansupport.
y
D
E
F
x
z
C
B
A
200 mm
200 mm
200 mm
200 mm
500 mm
300 mm
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*6–64. Determine the force developed in each member ofthe space truss and state if the members are in tension orcompression. The crate has a weight of 150 lb.
xy
z
A
B
C
D
6 ft
6 ft6 ft
6 ft
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472
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•6–65. Determine the force in members FE and ED of thespace truss and state if the members are in tension orcompression. The truss is supported by a ball-and-socketjoint at C and short links at A and B.
z
x
y
{�500k} lb
G {200j} lb
6 ft
6 ft
F
ED
C
4 ft
2 ft3 ft3 ft
A
B
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6–66. Determine the force in members GD, GE, and FDof the space truss and state if the members are in tension orcompression.
z
x
y
{�500k} lb
G {200j} lb
6 ft
6 ft
F
ED
C
4 ft
2 ft3 ft3 ft
A
B
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6–67. Determine the force required to hold the 100-lb weight in equilibrium.
P
PA
B
C
D
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*6–68. Determine the force required to hold the 150-kg crate in equilibrium.
P
P
A
B
C
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•6–69. Determine the force required to hold the 50-kgmass in equilibrium.
P
P
A
B
C
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6–70. Determine the force needed to hold the 20-lb blockin equilibrium.
P
C
B
A
P
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6–71. Determine the force needed to support the 100-lbweight. Each pulley has a weight of 10 lb. Also, what are thecord reactions at A and B?
P
P
2 in.
2 in.
2 in.
CA
B
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*6–72. The cable and pulleys are used to lift the 600-lbstone. Determine the force that must be exerted on the cableat A and the corresponding magnitude of the resultant forcethe pulley at C exerts on pin B when the cables are in theposition shown.
P
A
C
B
D
30�
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•6–73. If the peg at B is smooth, determine thecomponents of reaction at the pin A and fixed support C.
A
B C
600 mm
800 mm
900 N�m
600 mm
500 N
45�
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6–74. Determine the horizontal and vertical componentsof reaction at pins A and C.
BA
C
2 ft3 ft
150 lb
100 lb
2 ft
45�
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6–75. The compound beam is fixed at A and supported byrockers at B and C. There are hinges (pins) at D and E.Determine the components of reaction at the supports.
6 m2 m
6 m
30 kN � m
2 m 2 m
15 kN
A D B EC
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*6–76. The compound beam is pin-supported at C andsupported by rollers at A and B. There is a hinge (pin) at D.Determine the components of reaction at the supports.Neglect the thickness of the beam. A D B C
8 ft
3
45
8 ft
12 kip
15 kip � ft
4 kip30�
8 kip
8 ft4 ft 2 ft
6 ft
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•6–77. The compound beam is supported by a rocker at Band is fixed to the wall at A. If it is hinged (pinned) togetherat C, determine the components of reaction at the supports.Neglect the thickness of the beam.
4 ft 4 ft
500 lb200 lb
4000 lb � ft
4 ft8 ft
A C B
1213
5 60�
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6–78. Determine the horizontal and vertical componentsof reaction at pins A and C of the two-member frame.
3 m
3 m
200 N/ m
A
B
C
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6–79. If a force of acts on the rope, determinethe cutting force on the smooth tree limb at D and thehorizontal and vertical components of force acting on pin A.The rope passes through a small pulley at C and a smoothring at E.
F = 50 N
F � 50 N
BC
E
30 mm
100 mm
A
D
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*6–80. Two beams are connected together by the shortlink BC. Determine the components of reaction at the fixedsupport A and at pin D.
A B
C
D
10 kN12 kN
3 m1.5 m1 m 1.5 m
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•6–81. The bridge frame consists of three segments whichcan be considered pinned at A, D, and E, rocker supportedat C and F, and roller supported at B. Determine thehorizontal and vertical components of reaction at all thesesupports due to the loading shown. 15 ft
20 ft
5 ft 5 ft
15 ft
2 kip/ft
30 ft
A
B
C F
DE
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6–82. If the 300-kg drum has a center of mass at point G,determine the horizontal and vertical components of forceacting at pin A and the reactions on the smooth pads Cand D. The grip at B on member DAB resists bothhorizontal and vertical components of force at the rim ofthe drum.
P
390 mm
100 mm
60 mm60 mm
600 mm
30�
B
A
C
D G
E
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6–83. Determine the horizontal and vertical componentsof reaction that pins A and C exert on the two-member arch.
1 m1.5 m
2 kN
1.5 kN
0.5 m
A
B
C
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*6–84. The truck and the tanker have weights of 8000 lband 20 000 lb respectively. Their respective centers ofgravity are located at points and . If the truck is atrest, determine the reactions on both wheels at A, at B, andat C. The tanker is connected to the truck at the turntableD which acts as a pin.
G2G1G1
15 ft 10 ft 9 ft5 ft
A B
D
C
G2
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•6–85. The platform scale consists of a combination ofthird and first class levers so that the load on one leverbecomes the effort that moves the next lever. Through thisarrangement, a small weight can balance a massive object.If , determine the required mass of thecounterweight S required to balance a 90-kg load, L.
x = 450 mm
350 mm150 mm
150 mm100 mm250 mm
BA
C D
E F
H
G
x
L
S
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6–86. The platform scale consists of a combination ofthird and first class levers so that the load on one leverbecomes the effort that moves the next lever. Through thisarrangement, a small weight can balance a massive object. If
and, the mass of the counterweight S is 2 kg,determine the mass of the load L required to maintain thebalance.
x = 450 mm
350 mm150 mm
150 mm100 mm250 mm
BA
C D
E F
H
G
x
L
S
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6–87. The hoist supports the 125-kg engine. Determinethe force the load creates in member DB and in memberFB, which contains the hydraulic cylinder H.
C
D
EFG
H
2 m
1 m
1 m
2 m1 m
2 m
A B
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*6–88. The frame is used to support the 100-kg cylinder E.Determine the horizontal and vertical components ofreaction at A and D.
A
CD
E
0.6 m
1.2 m
r � 0.1 m
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•6–89. Determine the horizontal and vertical componentsof reaction which the pins exert on member AB of the frame.
A
E
B
CD
500 lb
300 lb
3 ft 3 ft
4 ft
60�
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6–90. Determine the horizontal and vertical components ofreaction which the pins exert on member EDC of the frame.
A
E
B
CD
500 lb
300 lb
3 ft 3 ft
4 ft
60�
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6–91. The clamping hooks are used to lift the uniformsmooth 500-kg plate. Determine the resultant compressiveforce that the hook exerts on the plate at A and B, and thepin reaction at C.
A
B
80 mm
P
P P
150 mm
C
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*6–92. The wall crane supports a load of 700 lb. Determinethe horizontal and vertical components of reaction at the pinsA and D.Also, what is the force in the cable at the winch W?
4 ft
D
A B
C
E
W
4 ft
700 lb
60�
4 ft
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•6–93. The wall crane supports a load of 700 lb.Determine the horizontal and vertical components ofreaction at the pins A and D. Also, what is the force in thecable at the winch W? The jib ABC has a weight of 100 lband member BD has a weight of 40 lb. Each member isuniform and has a center of gravity at its center. 4 ft
D
A B
C
E
W
4 ft
700 lb
60�
4 ft
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6–94. The lever-actuated scale consists of a series ofcompound levers. If a load of weight is placedon the platform, determine the required weight of thecounterweight S to balance the load. Is it necessary to placethe load symmetrically on the platform? Explain.
W = 150 lb
BA
CDE
FG H
I
JKS
M
W
L
1.5 in.
1.5 in.
7.5 in. 7.5 in.4.5 in.
4 in.1.25 in.
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6–95. If , determine the force F that the toggleclamp exerts on the wooden block.
P = 75 N 85 mm140 mm
50 mm
50 mm
20 mm
140 mmP
P F
A
BC
D
E
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*6–96. If the wooden block exerts a force of on the toggle clamp, determine the force P applied to thehandle.
F = 600 N 85 mm140 mm
50 mm
50 mm
20 mm
140 mmP
P F
A
BC
D
E
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•6–97. The pipe cutter is clamped around the pipe P. Ifthe wheel at A exerts a normal force of on thepipe, determine the normal forces of wheels B and C onthe pipe. The three wheels each have a radius of 7 mm andthe pipe has an outer radius of 10 mm.
FA = 80 N
10 mm
10 mm
P
C
BA
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6–98. A 300-kg counterweight, with center of mass at G, ismounted on the pitman crank AB of the oil-pumping unit.If a force of is to be developed in the fixed cableattached to the end of the walking beam DEF, determinethe torque M that must be supplied by the motor.
F = 5 kN
A
BM
D E F
F0.5 m
30�
30�
1.75 m 2.50 m
G
0.65 m
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6–99. A 300-kg counterweight, with center of mass at G, ismounted on the pitman crank AB of the oil-pumping unit.If the motor supplies a torque of , determinethe force F developed in the fixed cable attached to the endof the walking beam DEF.
M = 2500 N # m
A
BM
D E F
F0.5 m
30�
30�
1.75 m 2.50 m
G
0.65 m
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*6–100. The two-member structure is connected at C by apin, which is fixed to BDE and passes through the smoothslot in member AC. Determine the horizontal and verticalcomponents of reaction at the supports.
3 ft 3 ft 2 ft
4 ft
A
B
C DE
600 lb � ft
500 lb
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•6–101. The frame is used to support the 50-kg cylinder.Determine the horizontal and vertical components ofreaction at A and D.
A B
C
D
1.2 m
0.8 m 0.8 m
100 mm
100 mm
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509
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6–102. The frame is used to support the 50-kg cylinder.Determine the force of the pin at C on member ABC andon member CD.
A B
C
D
1.2 m
0.8 m 0.8 m
100 mm
100 mm
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6–103. Determine the reactions at the fixed support E andthe smooth support A. The pin, attached to member BD,passes through a smooth slot at D.
B
C
D
E
0.3 m 0.3 m 0.3 m 0.3 m
0.4 m
0.4 m600 N
A
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*6–104. The compound arrangement of the pan scale isshown. If the mass on the pan is 4 kg, determine thehorizontal and vertical components at pins A, B, and C andthe distance x of the 25-g mass to keep the scale in balance.
50 mmG
100 mm 75 mm300 mm 350 mm
xF E
D
B
A
4 kg
C
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•6–105. Determine the horizontal and vertical componentsof reaction that the pins at A, B, and C exert on the frame.The cylinder has a mass of 80 kg.
A
B
C1 m
0.7 m0.5 m
D
100 mm
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6–106. The bucket of the backhoe and its contents have aweight of 1200 lb and a center of gravity at G. Determinethe forces of the hydraulic cylinder AB and in links AC andAD in order to hold the load in the position shown. Thebucket is pinned at E.
120�
45�
1.5 ft
1 ft
B
G
EA D
C
0.25 ft
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6–107. A man having a weight of 175 lb attempts to holdhimself using one of the two methods shown. Determine thetotal force he must exert on bar AB in each case and the normal reaction he exerts on the platform at C. Neglectthe weight of the platform.
C C
A BA B
(a) (b)
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*6–108. A man having a weight of 175 lb attempts to holdhimself using one of the two methods shown. Determine thetotal force he must exert on bar AB in each case and thenormal reaction he exerts on the platform at C.The platformhas a weight of 30 lb.
C C
A BA B
(a) (b)
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•6–109. If a clamping force of is required at A,determine the amount of force F that must be applied to thehandle of the toggle clamp.
300 N
275 mm30�
30�
235 mm
30 mm
30 mm
70 mm
F
C
E
B
D
A
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6–110. If a force of is applied to the handle ofthe toggle clamp, determine the resulting clamping force at A.
F = 350 N
275 mm30�
30�
235 mm
30 mm
30 mm
70 mm
F
C
E
B
D
A
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6–111. Two smooth tubes A and B, each having the sameweight, W, are suspended from a common point O by meansof equal-length cords. A third tube, C, is placed between Aand B. Determine the greatest weight of C withoutupsetting equilibrium.
r/2
rB
C
3r 3r
O
rA
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*6–112. The handle of the sector press is fixed to gear G,which in turn is in mesh with the sector gear C. Note thatAB is pinned at its ends to gear C and the underside of thetable EF, which is allowed to move vertically due to thesmooth guides at E and F. If the gears only exert tangentialforces between them, determine the compressive forcedeveloped on the cylinder S when a vertical force of 40 N isapplied to the handle of the press.
1.2 m
E F
A
B C
G
D
S
0.5 m
0.2 m
0.35 m0.65 m
40 N
H
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•6–113. Show that the weight of the counterweight atH required for equilibrium is , and so it isindependent of the placement of the load W on theplatform.
W1 = (b>a)WW1
A B
W
CE
G HDF
c
b3b a
c4
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6–114. The tractor shovel carries a 500-kg load of soil,having a center of mass at G. Compute the forces developedin the hydraulic cylinders IJ and BC due to this loading.
100 mm
300 mm
300 mm
30�A
C
E
G
D
F
H
J
B
30�
50 mm
400 mm200 mm200 mm
200 mm
I350 mm
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6–115. If a force of is applied to the handle ofthe toggle clamp, determine the horizontal clamping forceNE that the clamp exerts on the smooth wooden block at E.
P = 100 N
B
C
D
160 mm
50 mm
75 mm
60 mm
30�
45�
A
E
P
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*6–116. If the horizontal clamping force that the toggleclamp exerts on the smooth wooden block at E is
, determine the force applied to the handle ofthe clamp.
PNE = 200 NB
C
D
160 mm
50 mm
75 mm
60 mm
30�
45�
A
E
P
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•6–117. The engine hoist is used to support the 200-kgengine. Determine the force acting in the hydraulic cylinderAB, the horizontal and vertical components of force at thepin C, and the reactions at the fixed support D.
C
D
AG
1250 mm350 mm
850 mm
550 mm
10�
B
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6–118. Determine the force that the smooth roller Cexerts on member AB. Also, what are the horizontal andvertical components of reaction at pin A? Neglect theweight of the frame and roller.
C
0.5 ft
3 ft
A
60 lb � ft
4 ft
B
D
6–119. Determine the horizontal and vertical componentsof reaction which the pins exert on member ABC.
3 ft
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*6–120. Determine the couple moment M that must beapplied to member DC for equilibrium of the quick-returnmechanism. Express the result in terms of the angles and , dimension L, and the applied vertical force P. Theblock at C is confined to slide within the slot of member AB.
u
f
C
M
DA
B
4 L
L
P
u f
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•6–121. Determine the couple moment M that must beapplied to member DC for equilibrium of the quick-returnmechanism. Express the result in terms of the angles and , dimension L, and the applied force P, which shouldbe changed in the figure and instead directed horizontallyto the right. The block at C is confined to slide within theslot of member AB.
u
f
C
M
DA
B
4 L
L
P
u f
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6–122. The kinetic sculpture requires that each of thethree pinned beams be in perfect balance at all times duringits slow motion. If each member has a uniform weight of 2 and length of 3 ft, determine the necessarycounterweights and which must be added to theends of each member to keep the system in balance for anyposition. Neglect the size of the counterweights.
W3W1, W2,lb>ft
W
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6–123. The four-member “A” frame is supported at A andE by smooth collars and at G by a pin. All the other jointsare ball-and-sockets. If the pin at G will fail when theresultant force there is 800 N, determine the largest verticalforce P that can be supported by the frame. Also, what arethe x, y, z force components which member BD exerts onmembers EDC and ABC? The collars at A and E and thepin at G only exert force components on the frame.
x
y
C
D
BF
G
E
A
P � �Pk
z
300 mm
300 mm
600 mm
600 mm
600 mm
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*6–124. The structure is subjected to the loading shown.Member AD is supported by a cable AB and roller at C andfits through a smooth circular hole at D. Member ED issupported by a roller at D and a pole that fits in a smoothsnug circular hole at E. Determine the x, y, z components ofreaction at E and the tension in cable AB.
z
C
A
D
B
E
0.3 m y
0.3 m
0.5 m
0.4 m
F � {�2.5k} kN
x
0.8 m
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•6–125. The three-member frame is connected at its endsusing ball-and-socket joints. Determine the x, y, z componentsof reaction at B and the tension in member ED. The forceacting at D is F = 5135i + 200j - 180k6 lb.
y
6 ft
2 ft1ft
3 ft
6 ft3 ft
4 ft
x
A
D
F
B
C
E
z
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6–126. The structure is subjected to the loadings shown.Member AB is supported by a ball-and-socket at A andsmooth collar at B. Member CD is supported by a pin at C.Determine the x, y, z components of reaction at A and C.
2 m 3 m y
4 m
1.5 m
B
800 N � m
A
250 N
D45�
60�
60�
z
x
C
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6–127. Determine the clamping force exerted on thesmooth pipe at B if a force of 20 lb is applied to the handlesof the pliers. The pliers are pinned together at A.
A
20 lb
20 lb
10 in. 40�
1.5 in.
0.5 in.
B
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*6–128. Determine the forces which the pins at A and B exert on the two-member frame which supports the100-kg crate.
A
C
B
D
0.6 m
0.8 m 0.6 m
0.4 m
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•6–129. Determine the force in each member of the trussand state if the members are in tension or compression. D
A
E
3 m 3 m
3 m
8 kN
B
0.1 m
C
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6–130. The space truss is supported by a ball-and-socketjoint at D and short links at C and E. Determine the force ineach member and state if the members are in tension orcompression.Take and .F2 = 5400j6 lbF1 = 5-500k6 lb
3 ft4 ft
3 ft
x
y
z
C
D
E
A
B
F
F2
F1
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6–131. The space truss is supported by a ball-and-socketjoint at D and short links at C and E. Determine the forcein each member and state if the members are in tension or compression. Take and
.F2 = 5400j6 lbF1 = 5200i + 300j - 500k6 lb
3 ft4 ft
3 ft
x
y
z
C
D
E
A
B
F
F2
F1
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*6–132. Determine the horizontal and vertical componentsof reaction that the pins A and B exert on the two-memberframe. Set .F = 0
1.5 m
400 N/m
60�
1 m
1 m
B
C
A
F
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•6–133. Determine the horizontal and vertical componentsof reaction that pins A and B exert on the two-memberframe. Set .F = 500 N
1.5 m
400 N/m
60�
1 m
1 m
B
C
A
F
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6–134. The two-bar mechanism consists of a lever arm ABand smooth link CD, which has a fixed smooth collar at itsend C and a roller at the other end D. Determine the force Pneeded to hold the lever in the position . The spring has astiffness k and unstretched length 2L. The roller contactseither the top or bottom portion of the horizontal guide.
u
2 L
L
k
C
A
B
D
P
u
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6–135. Determine the horizontal and vertical componentsof reaction at the pin supports A and E of the compoundbeam assembly. 2 ft
2 kip/ft
1 ft
3 ft 6 ft2 ft1 ft
A
C
EDB
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© 2010 Pearson Education, Inc., Upper Saddle River, NJ. All rights reserved. This material is protected under all copyright laws as they currentlyexist. No portion of this material may be reproduced, in any form or by any means, without permission in writing from the publisher.
*6–136. Determine the force in members AB, AD, and ACof the space truss and state if the members are in tension orcompression. 1.5 ft
1.5 ft
2 ft
F � {�600k} lb
8 ftx
y
z
BA
C
D
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