GPA and p in kg/m3 The beam supported in two different ways: (i) Free-Free (ii) Fixed-Free...
2. A steel beam has a rectangular cross section (b mm and h mm) with a length, L m. For steel, E in GPA and pin kg/m3. The beam supported in two different ways: (i) Free-Free ii) Fixed-Free (iii) Fixed-Fixed (iv) Pinned-Pinned (a) Free-hand sketch the beams and list boundary conditions for each. (b) Compute the three lowest temporal frequencies for each beam. (c) Free-hand sketch the first three mode shapes for each beam. Use the following Table for specifications:...
A steel beam has a rectangular 2. cross section (b mm and h mm) with a length, L m. For steel, E in GPA and p in kg/m3 The beam supported in: Fixed-Free a) List the boundary conditions b) Compute the three lowest temporal frequencies. Lenth, L (m) b (m) h(m) E (GPa) Density, p (kg/m3) 1.50 0.155 0.060 200 7750 A steel beam has a rectangular 2. cross section (b mm and h mm) with a length, L m....
2. A steel beam has a rectangular cross section (b mm and h mm) with a length, L m. For steel, E in GPA andp in kg/m The beam supported in: Fixed-Free a) List the boundary conditions b) Compute the three lowest temporal frequencies E (GPa) Density, p(kg/m3) Lenth, L (m) b(m) h(m) 1.50 0.155 0.060 200 7750 2. A steel beam has a rectangular cross section (b mm and h mm) with a length, L m. For steel, E...