P5.46 At a temperature of 15°C, a gap of A = 5 mm exists between the two polymer bars shown in the accompanying figure. Bar (1) has a length L, = 700 mm, a cross-sectional area A,= 1,250 mm2, a coefficient of thermal expansion a, = 130 x 10-/°C, and an elastic modulus E, = 1,400 MPa. Bar (2) has a length L2 = 500 mm, a cross-sectional area A, = 3,75omm2, a coefficient of thermal expansion a, = 80 × 10-6/°C, and an elastic modulus E, = 3,700 MPa. The supports at A and D are rigid. DetermineAL2(1)(2)FIGURE P5.46(a) the lowest temperature at which the gap is closed.(b) the normal stress in the two bars at a temperature of 1o00°C.(c) the longitudinal normal strain in the two bars at 100°C.

Name: P5.46 At a temperature of 15°C, a gap of A = 5 mm exists between the
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Description: P5.46 At a temperature of 15°C, a gap of A = 5 mm exists between the two polymer bars shown in the accompanying figure. Bar (1) has a length L, = 700 mm, a cross-sectional area A,= 1,250 mm2, a coefficient of thermal expansion a, = 130 x 10-/°C, and

To Find : a)The lowest temperature at which the gap is closed . Given : The initial temperature is…

Engineering

Mechanical Engineering

P5.46 At a temperature of 15°C, a gap of A = 5 mm exists between the two polymer bars shown in the accompanying figure. Bar (1) has a length L, = 700 mm, a cross-sectional area A, = 1,250 mm?, a coefficient of thermal expansion a, = 130 x 10-0/°C, and an elastic modulus E, = 1,400 MPa. Bar (2) has a length L2 = 500 mm, a cross-sectional area A, = 3,750 mm?, a coefficient of thermal expansion a, = 80 x 10-6/°C, and an elastic modulus E, = 3,700 MPa. The supports at A and D are rigid. Determine (1) (2) FIGURE P5.46 (a) the lowest temperature at which the gap is closed. (b) the normal stress in the two bars at a temperature of 100°C. (c) the longitudinal normal strain in the two bars at 100°C.

P5.46 At a temperature of 15°C, a gap of A = 5 mm exists between the two polymer bars shown in the accompanying figure. Bar (1) has a length L, = 700 mm, a cross-sectional area A, = 1,250 mm?, a coefficient of thermal expansion a, = 130 x 10-0/°C, and an elastic modulus E, = 1,400 MPa. Bar (2) has a length L2 = 500 mm, a cross-sectional area A, = 3,750 mm?, a coefficient of thermal expansion a, = 80 x 10-6/°C, and an elastic modulus E, = 3,700 MPa. The supports at A and D are rigid. Determine (1) (2) FIGURE P5.46 (a) the lowest temperature at which the gap is closed. (b) the normal stress in the two bars at a temperature of 100°C. (c) the longitudinal normal strain in the two bars at 100°C.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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