A beam is embedded at the left end and free at the other end with a...

A beam under a uniformly-distributed transverse load is fixed at the end x=0 and roller-supported at...

A beam under a uniformly-distributed transverse load is fixed at the end x=0 and roller-supported at the other end x= L. What are the Boundary Conditions needed to completely determine the reactions and thus the deflection curve y(x). (Do not attempt to solve the differential equation EIy’’=M(x) )

A simply supported beam of constant EI and length L is supporting a distributed load omega...

A simply supported beam of constant EI and length L is supporting a distributed load omega w over its entire span. Determine the deflection of the beam at L/3 using Catigliano's method.

Analyze the continuous beam by moment distribution method. Solve for the moments and reactions. Beam ABC...

Analyze the continuous beam by moment distribution method. Solve for the moments and reactions. Beam ABC has a fixed support at the left side of the beam and have a hinge support at the middle and the right end, who carries a uniformly distributed load of 100kn/m at span BC with a total length of 6m and a concentrated load 150KN at the center of span AB with a total length of 5m. Span AB = 2l and Span BC...

3. A cantilever beam of span 5m is subjected to a uniformly distributed load of 30...

3. A cantilever beam of span 5m is subjected to a uniformly distributed load of 30 kN/m over the whole span. If the beam is made of Iron with E = 104 N/mm2 and moment of inertia I = 108 mm4. Apply the theroems of moment area method and find out the slope at the free end and deflection at the center of the beam?

Using Castigliano’s theorem determine the slope of the free end of a cantilever beam carrying a...

Using Castigliano’s theorem determine the slope of the free end of a cantilever beam carrying a uniformly distributed load w = 20 kN/m. The beam is 2 m long, with a section moment of inertia I =1317 cm^4. The material is steel with an elastic modulus of 200 GPa

The deflection of a beam, y(x), satisfies the differential equation 8 * d 4y dx4   =  w(x)    on  0  ...

The deflection of a beam, y(x), satisfies the differential equation 8 * d 4y dx4   =  w(x)    on  0  <  x  <  1. Find y(x) in the case where w(x) is equal to the constant value 38, and the beam is embedded on the left (at x  =  0) and simply supported on the right (at x  =  1). Please Calculate all the constant in equation

Timber beams are widely used in home construction. When the load (measured in pounds) per unit...

Timber beams are widely used in home construction. When the load (measured in pounds) per unit length has a constant value over part of a beam, the load is said to be uniformly distributed over that part of the beam. Uniformly distributed beam loads were used to derive the stiffness distribution of the beam in the American Institute of Aeronautics and Astronautics Journal (May 2013). Consider a cantilever beam with a uniformly distributed load between 200 and 230 pounds per...

A simply-supported beam of length 13.3 inches has a distributed load applied along its entire length....

A simply-supported beam of length 13.3 inches has a distributed load applied along its entire length. The function defining the load is w(x) = 4x^2 + 13x - 6lb/ft with x measured in feet. 1) Determine the total applied load, in lb. 2) Determine the reaction at the left end of the beam (x = 0) 3) Determine the reaction at the right end of the beam (x = 13.3) 4) Determine and enter below the internal beam shear at...

A person with mass m1 = 64 kg stands at the left end of a uniform...

A person with mass m1 = 64 kg stands at the left end of a uniform beam with mass m2 = 91 kg and a length L = 2.7 m. Another person with mass m3 = 59 kg stands on the far right end of the beam and holds a medicine ball with mass m4 = 15 kg (assume that the medicine ball is at the far right end of the beam as well). Let the origin of our coordinate...

Explain in words how you would solve this problem? A uniform beam of length L and...

Explain in words how you would solve this problem? A uniform beam of length L and mass m is inclined at an angle θ to the horizontal (see figure below). Its upper end is connected to a wall by a horizontal rope and its lower end rests on a rough horizontal surface. (a) In the free body diagram for the beam, there are 4 forces are acting on it. Name these forces, giving numerical values where appropriate, and their directions...