Solucionario Resistencia De Materiales Schaum William Nash May 2026

Steel column (E=200 GPa) solid circular d=40 mm, L=2 m, pinned ends (K=1). Find critical load.

Numerical solution: Let F₁+F₂=100 kN. Deformation equality: F₁ 1.5/(500e-6 100e9) = F₂ 1.2/(400e-6 200e9) → F₁ 1.5/(5e-5 1e11) = F₂ 1.2/(4e-4 2e11) → simplify → F₁/F₂ = 0.8 → F₁=0.8F₂. Then 0.8F₂+F₂=100 → 1.8F₂=100 → F₂=55.56 kN, F₁=44.44 kN. Formula: δ_T = αΔTL, thermal force = EAαΔT (if constrained). solucionario resistencia de materiales schaum william nash

Let F₁ = force in bronze, F₂ = force in steel. Equilibrium: ΣM = 0 → F₁ a + F₂ b = P*c (specific distances depend on figure; assume symmetrical so F₁+F₂ = P). Compatibility: δ₁ = δ₂ → (F₁L₁)/(A₁E₁) = (F₂L₂)/(A₂E₂). Solve simultaneously. Steel column (E=200 GPa) solid circular d=40 mm,

A rigid bar is supported by two vertical rods: Bronze (A₁ = 500 mm², E₁ = 100 GPa, L₁ = 1.5 m) and Steel (A₂ = 400 mm², E₂ = 200 GPa, L₂ = 1.2 m). A load P = 100 kN is applied at the bar’s end. Determine forces in each rod. Deformation equality: F₁ 1