Viga apoio-engaste com carga uniforme distribuída nos extremos do vão
Informações sobre a figura e as equações:
Legenda:
\(\delta_A = \dfrac{w x \left(- 6 L^{4} a^{2} + 8 L^{3} a^{3} + 8 L^{3} a x^{2} - 4 L^{3} b^{3} - 2 L^{3} x^{3} - 3 L^{2} a^{4} - 6 L^{2} a^{2} x^{2} + 3 L^{2} b^{4} + 4 L b^{3} x^{2} + a^{4} x^{2} - b^{4} x^{2}\right)}{48 E I L^{3}}\)
\(\delta_B = \dfrac{w \left(2 L^{3} \left(- 3 L a^{2} x + a^{4} + 6 a^{2} x^{2} - 2 b^{3} x\right) + 3 L^{2} x \left(- a^{4} - 2 a^{2} x^{2} + b^{4}\right) + 4 L b^{3} x^{3} + x^{3} \left(a^{4} - b^{4}\right)\right)}{48 E I L^{3}}\)
\(\delta_C = \dfrac{w \left(2 L^{3} \left(- L^{4} + 4 L^{3} b + 4 L^{3} x - 6 L^{2} b^{2} - 12 L^{2} b x - 6 L^{2} x^{2} - 3 L a^{2} x + 4 L b^{3} + 12 L b^{2} x + 12 L b x^{2} + 4 L x^{3} + a^{4} + 6 a^{2} x^{2} - b^{4} - 6 b^{3} x - 6 b^{2} x^{2} - 4 b x^{3} - x^{4}\right) + 3 L^{2} x \left(- a^{4} - 2 a^{2} x^{2} + b^{4}\right) + 4 L b^{3} x^{3} + x^{3} \left(a^{4} - b^{4}\right)\right)}{48 E I L^{3}}\)
\(M_A = \dfrac{w x \left(8 L^{3} a - 4 L^{3} x - 6 L^{2} a^{2} + 4 L b^{3} + a^{4} - b^{4}\right)}{8 L^{3}}\)
\(M_B = \dfrac{w \left(4 L^{3} a^{2} - 6 L^{2} a^{2} x + 4 L b^{3} x + x \left(a^{4} - b^{4}\right)\right)}{8 L^{3}}\)
\(M_C = \dfrac{w \left(4 L^{3} \left(- L^{2} + 2 L b + 2 L x + a^{2} - b^{2} - 2 b x - x^{2}\right) - 6 L^{2} a^{2} x + 4 L b^{3} x + x \left(a^{4} - b^{4}\right)\right)}{8 L^{3}}\)
\(V_A = \dfrac{w \left(8 L^{3} a - 8 L^{3} x - 6 L^{2} a^{2} + 4 L b^{3} + a^{4} - b^{4}\right)}{8 L^{3}}\)
\(V_B = \dfrac{w \left(- 6 L^{2} a^{2} + 4 L b^{3} + a^{4} - b^{4}\right)}{8 L^{3}}\)
\(V_C = \dfrac{w \left(8 L^{3} \left(L - b - x\right) - 6 L^{2} a^{2} + 4 L b^{3} + a^{4} - b^{4}\right)}{8 L^{3}}\)
\(R_1 = \dfrac{w \left(8 L^{3} a - 6 L^{2} a^{2} + 4 L b^{3} + a^{4} - b^{4}\right)}{8 L^{3}}\)
\(R_2 = \dfrac{w \left(8 L^{3} b + 6 L^{2} a^{2} - 4 L b^{3} - a^{4} + b^{4}\right)}{8 L^{3}}\)
\(M_2 = \dfrac{w \left(- 2 L^{2} a^{2} - 4 L^{2} b^{2} + 4 L b^{3} + a^{4} - b^{4}\right)}{8 L^{2}}\)
deltaA = w*x*(-6*L**4*a**2 + 8*L**3*a**3 + 8*L**3*a*x**2 - 4*L**3*b**3 - 2*L**3*x**3 - 3*L**2*a**4 - 6*L**2*a**2*x**2 + 3*L**2*b**4 + 4*L*b**3*x**2 + a**4*x**2 - b**4*x**2)/(48*E*I*L**3)
deltaB = w*(2*L**3*(-3*L*a**2*x + a**4 + 6*a**2*x**2 - 2*b**3*x) + 3*L**2*x*(-a**4 - 2*a**2*x**2 + b**4) + 4*L*b**3*x**3 + x**3*(a**4 - b**4))/(48*E*I*L**3)
deltaC = w*(2*L**3*(-L**4 + 4*L**3*b + 4*L**3*x - 6*L**2*b**2 - 12*L**2*b*x - 6*L**2*x**2 - 3*L*a**2*x + 4*L*b**3 + 12*L*b**2*x + 12*L*b*x**2 + 4*L*x**3 + a**4 + 6*a**2*x**2 - b**4 - 6*b**3*x - 6*b**2*x**2 - 4*b*x**3 - x**4) + 3*L**2*x*(-a**4 - 2*a**2*x**2 + b**4) + 4*L*b**3*x**3 + x**3*(a**4 - b**4))/(48*E*I*L**3)
MA = w*x*(8*L**3*a - 4*L**3*x - 6*L**2*a**2 + 4*L*b**3 + a**4 - b**4)/(8*L**3)
MB = w*(4*L**3*a**2 - 6*L**2*a**2*x + 4*L*b**3*x + x*(a**4 - b**4))/(8*L**3)
MC = w*(4*L**3*(-L**2 + 2*L*b + 2*L*x + a**2 - b**2 - 2*b*x - x**2) - 6*L**2*a**2*x + 4*L*b**3*x + x*(a**4 - b**4))/(8*L**3)
VA = w*(8*L**3*a - 8*L**3*x - 6*L**2*a**2 + 4*L*b**3 + a**4 - b**4)/(8*L**3)
VB = w*(-6*L**2*a**2 + 4*L*b**3 + a**4 - b**4)/(8*L**3)
VC = w*(8*L**3*(L - b - x) - 6*L**2*a**2 + 4*L*b**3 + a**4 - b**4)/(8*L**3)
R1 = w*(8*L**3*a - 6*L**2*a**2 + 4*L*b**3 + a**4 - b**4)/(8*L**3)
R2 = w*(8*L**3*b + 6*L**2*a**2 - 4*L*b**3 - a**4 + b**4)/(8*L**3)
M2 = w*(-2*L**2*a**2 - 4*L**2*b**2 + 4*L*b**3 + a**4 - b**4)/(8*L**2)