A beam of square cross section, 10 x 10 cm and length 5 m has a...

a 21.00 m steel beam with 6.00 cm x 6.000 cm cross-section is supported at opposite...

a 21.00 m steel beam with 6.00 cm x 6.000 cm cross-section is supported at opposite ends by two wires of equal length but of different composition in diameter. One wire composed of copper has a diameter of .8500 mm The other wire is made of aluminum. If the steel beam remains perfectly level find the diameter of the aluminum wire

A simply supported composite beam (L = 4.5 m) is subjected to a positive bending moment...

A simply supported composite beam (L = 4.5 m) is subjected to a positive bending moment (680 N- m) at both ends. The beam is made of two materials in a square cross-section. Material 1 is 50x50 mm and is surrounded by a 25 mm shell of material 2. Solve for the maximum stress in each material. E1 = 100 GPa, E2 = 200 GPa.

A simply supported composite beam (L = 4.5 m) is subjected to a positive bending moment...

A simply supported composite beam (L = 4.5 m) is subjected to a positive bending moment (680 N-m) at both ends. The beam is made of two materials in a square cross-section. Material 1 is 50x50 mm and is surrounded by a 25 mm shell of material 2. Solve for the maximum stress in each material. E1 = 100 GPa, E2 = 200 GPa.

A simply supported composite beam (L = 4.5 m) is subjected to a positive bending moment...

A simply supported composite beam (L = 4.5 m) is subjected to a positive bending moment (680 N- m) at both ends. The beam is made of two materials in a square cross-section. Material 1 is 50x50 mm and is surrounded by a 25 mm shell of material 2. Solve for the maximum stress in each material. E1 = 100 GPa, E2 = 200 GPa.

A rod has a square cross section of (5 x 5) mm. length of the rod...

A rod has a square cross section of (5 x 5) mm. length of the rod is 120 cm. The allowable stress is 400 MPa. After applying the load (F), square section changes to (4.95 x 4.95) mm. 1. What is the type of the load (F), is it tension or compression? 2. What is the longitudinal strain in steel rod? 3. What is the modulus of elasticity of the material of the rod? 4. What is the value of...

For a simply supported beam of length L and uniform cross-section (constant E and I with...

For a simply supported beam of length L and uniform cross-section (constant E and I with usual notation) with a concentrated load P perpendicular to the beam at mid span, use first principles and method of integration discussed to obtain an expression for the maximum deflection. If the concentrated load is still perpendicular to the beam but not at the mid span, very clearly and briefly explain how you would determine the maximum deflection of the beam.

A tensile test sample has a gauge length of 10 cm and a cross-section area of...

A tensile test sample has a gauge length of 10 cm and a cross-section area of 500 mm2. During the test, the sample yields at 0.2 % strain under a load of 1.5 x 105 N and the corresponding gauge length is 10.1 cm. The maximum load of 2 x 105 N is reached at a gauge length of 13 cm and the fracturing cross-section area is 370 mm2. Determine the values of (a) yield strength, (b) modulus of elasticity,...

A reinforced concrete beam is constructed with Grade 30 concrete which has a cross section of...

A reinforced concrete beam is constructed with Grade 30 concrete which has a cross section of 450 mm x 660 mm (b = 450 mm and D = 660 mm). The length of the beam is 5 m. The elastic modulus of the concrete is 32.8 GPa. A uniformly distributed live load of 23 kN/m is acting on the beam. Determine (a) the design bending moment on this beam for strength limit state, (b) modular ratio assuming Es = 200...

5. A rectangular cavity has cross-section 0.38 x 0.76 cm. If it oscillates in the TE102...

5. A rectangular cavity has cross-section 0.38 x 0.76 cm. If it oscillates in the TE102 mode at 50 GHz, calculate the length (l) of the cavity with air dielectric. Are there other modes with the same resonant frequency?

An iron wire of 10 m long with a cross section area of 2.0 mm2 is...

An iron wire of 10 m long with a cross section area of 2.0 mm2 is used to support a 400-kg load.  Its elongation is (in mm)    (a) 1.5   (b) 9.8    ( c) 15.8  (d) 37.9  ΔL/Lo =(F/A)/Y A wire 10 m long with a cross section area of 3 mm2 stretches by 12 mm when a 500-kg mass was suspended from it.  The Young’s modulus for this wire  is (in Pa)   (a) 1.5   (b) 9.8     ( c) 15.8     (d) 37.9                                        Y = (F/A)/(ΔL/Lo) When a pressure of 3 MPa is...