Q2: A composite bar is made up two vertical rods of steel and copper each of length 2 m and diameter 10 mm, separated by 1.5 m, are rigidly fixed to the ceiling as shown in figure 1. The lower end of the bar is connected by a horizontal cross- piece. 1- Find the load shared by each rod and the stress produced in the copper and steel.2- Where should a load of 15 kN be applied on the cross-piece so that it remains horizontal after being loaded? Take Es- 200 kNimm2 and Ec = 100 KNimm2. Q2/ 021 -Steel rod 2 m -Сорer rod Figure 1 P, 1.5 m -Cross-piece 15 kN
Q2: A composite bar is made up two vertical rods of steel and copper each of length 2 m and diameter 10 mm, separated by 1.5 m, are rigidly fixed to the ceiling as shown in figure 1. The lower end of the bar is connected by a horizontal cross- piece. 1- Find the load shared by each rod and the stress produced in the copper and steel.2- Where should a load of 15 kN be applied on the cross-piece so that it remains horizontal after being loaded? Take Es- 200 kNimm2 and Ec = 100 KNimm2. Q2/ 021 -Steel rod 2 m -Сорer rod Figure 1 P, 1.5 m -Cross-piece 15 kN
Mechanics of Materials (MindTap Course List)
9th Edition
ISBN:9781337093347
Author:Barry J. Goodno, James M. Gere
Publisher:Barry J. Goodno, James M. Gere
Chapter1: Tension, Compression, And Shear
Section: Chapter Questions
Problem 1.7.2P: A round bar of 10 mm diameter is made of aluminum alloy 7075-T6 (see figure). When the bar is...
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![02: A composite bar is made up two vertical rods of steel and copper each of
length 2 m and diameter 10 mm, separated by 1.5 m, are rigidly fixed to the ceiling
as shown in figure 1. The lower end of the bar is connected by a horizontal cross-
piece. 1- Find the load shared by each rod and the stress produced in the copper
and steel.2- Where should a load of 15 kN be applied on the cross-piece so that it
remains horizontal after being loaded? Take Es= 200 kNimm2 and Ec = 100
kN/mm2.
02/*
Steel rod
2 m
- Сорer rod
Figure 1
P,
1.5 m
-Cross-piece
15 kN
(1) Pc= 6 kN. Ps= 9 kN, oc= 67.54 N/mm2, os= 135.08N/mm2 / (2) x= 0.9 m
(1) Pc=4.5 kN, Ps= 10.5 KN, ac= 61.26 N/mm2, as= 122.52N/mm2 / (2) x=0.85 m
(1) Pc= 7 kN, Ps= 8 kN, oc= 60.66 N/mm2, os= 121.32 N/mm2 / (2) x= 0.8 m
O (1) Pc= 5 kN. Ps= 10 kN. oc= 63.66 N/mm2, os= 127.32 N/mm2 / (2) x= 1 m
(1) Pc= 8 kN, Ps= 7 kN, oc= 66.66 N/mm2, os= 133.32 N/mm2 / (2) x= 0.75 m
None of these](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F64671943-ff95-4202-a15b-79d8606ed8ee%2F588c6ab8-faf8-42c8-bb34-4a4b79b01551%2F5vvkua_processed.jpeg&w=3840&q=75)
Transcribed Image Text:02: A composite bar is made up two vertical rods of steel and copper each of
length 2 m and diameter 10 mm, separated by 1.5 m, are rigidly fixed to the ceiling
as shown in figure 1. The lower end of the bar is connected by a horizontal cross-
piece. 1- Find the load shared by each rod and the stress produced in the copper
and steel.2- Where should a load of 15 kN be applied on the cross-piece so that it
remains horizontal after being loaded? Take Es= 200 kNimm2 and Ec = 100
kN/mm2.
02/*
Steel rod
2 m
- Сорer rod
Figure 1
P,
1.5 m
-Cross-piece
15 kN
(1) Pc= 6 kN. Ps= 9 kN, oc= 67.54 N/mm2, os= 135.08N/mm2 / (2) x= 0.9 m
(1) Pc=4.5 kN, Ps= 10.5 KN, ac= 61.26 N/mm2, as= 122.52N/mm2 / (2) x=0.85 m
(1) Pc= 7 kN, Ps= 8 kN, oc= 60.66 N/mm2, os= 121.32 N/mm2 / (2) x= 0.8 m
O (1) Pc= 5 kN. Ps= 10 kN. oc= 63.66 N/mm2, os= 127.32 N/mm2 / (2) x= 1 m
(1) Pc= 8 kN, Ps= 7 kN, oc= 66.66 N/mm2, os= 133.32 N/mm2 / (2) x= 0.75 m
None of these
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