Q1\ A copper bar consists from three sections: sections 1 is of 25 mm diameter and 60 mm long, section 2 is of 15 mm diameter and 50 mm long and section 3 is 20 mm square and 40 mm long. The bar is subjected to an axial tensile load which induces a stress of 20 MN/m? on the smallest cross section. Determine the total increase in the length of the bar when the load is applied. For copper E=100 GN/m?. (5mark)

Elements Of Electromagnetics
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E1 16l| 46l Asiacell
ZAIN IQ
Y:YAI
O Mid-Mechanic..
University of Misan
Engineering College
Mechanical Engineering Department
Subject: Mechanics of Materials
Stage: 2d Stage
Time: 1.5 hour
Date: 25/2/ 2021
Mid Examination/ First Semester
Note: The total mark 15
Q1\ A copper bar consists from three sections: sections 1 is of 25 mm diameter
and 60 mm long, section 2 is of 15 mm diameter and 50 mm long and section 3 is
20 mm square and 40 mm long. The bar is subjected to an axial tensile load which
induces a stress of 20 MN/m? on the smallest cross section. Determine the total
increase in the length of the bar when the load is applied. For copper E=100 GN/m?.
(Smark)
Q2\ A compound bar is formed from copper rod of diameter 30 mm and a coaxial
steel tube of cross-sectional area 1500 mm? which are firmly attached at their ends.
Determine the stress in the copper and in the steel when the temperature of the
bar is dropped by 40°C and a compressive force of 100 kN is applied.
For copper, E = 100 GN/m with a = 16.5 x10" per °c.
For steel, E = 200 GN/m? with a = 11 x10“ per °c.
(5mark)
Q3\ A beam AB, 6 m long, is simply supported at A and D (where D is 1.5 m from
B). It carries a 24 kN concentrated load at C, 2 m from A, and a uniformly
distributed load of 8 kN/m over the remainder of the beam (C-B). Draw the S.F. and
B.M. diagrams and determine the value of the maximum B.M and its location.
(5mark)
Good Luck
Ahaeel Alshan
Теacher
Неad of Department
Dr. Sabah Falih Habib
Prof. Dr. Ahmed K. Alshara
Transcribed Image Text:E1 16l| 46l Asiacell ZAIN IQ Y:YAI O Mid-Mechanic.. University of Misan Engineering College Mechanical Engineering Department Subject: Mechanics of Materials Stage: 2d Stage Time: 1.5 hour Date: 25/2/ 2021 Mid Examination/ First Semester Note: The total mark 15 Q1\ A copper bar consists from three sections: sections 1 is of 25 mm diameter and 60 mm long, section 2 is of 15 mm diameter and 50 mm long and section 3 is 20 mm square and 40 mm long. The bar is subjected to an axial tensile load which induces a stress of 20 MN/m? on the smallest cross section. Determine the total increase in the length of the bar when the load is applied. For copper E=100 GN/m?. (Smark) Q2\ A compound bar is formed from copper rod of diameter 30 mm and a coaxial steel tube of cross-sectional area 1500 mm? which are firmly attached at their ends. Determine the stress in the copper and in the steel when the temperature of the bar is dropped by 40°C and a compressive force of 100 kN is applied. For copper, E = 100 GN/m with a = 16.5 x10" per °c. For steel, E = 200 GN/m? with a = 11 x10“ per °c. (5mark) Q3\ A beam AB, 6 m long, is simply supported at A and D (where D is 1.5 m from B). It carries a 24 kN concentrated load at C, 2 m from A, and a uniformly distributed load of 8 kN/m over the remainder of the beam (C-B). Draw the S.F. and B.M. diagrams and determine the value of the maximum B.M and its location. (5mark) Good Luck Ahaeel Alshan Теacher Неad of Department Dr. Sabah Falih Habib Prof. Dr. Ahmed K. Alshara
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