A propped cantilever beam is loaded by a bending moment of the magnitude MB at the point B as shown in Figure Q1. The cross- section of the beam is a rectangle of the width w and the hight h that are constant along the length of the beam L. The beam material's Young's modulus is Q. AY A |- Figure Q1 Based on the given values of dimensions and material parameters, the value of R can be calculated as kN; the value of the vertical reaction force at Support A can be calculated as kN; the value of the horizontal reaction force at Support A can be calculated as KN the absolute value of the reaction moment at Support A can be calculated as kN.m

• cross-section width w = 20  mm,
• cross-section hight h = 93   mm,
• length of the beam L =3   m ,
• beam material’s Young’s modulus Q =226 GPa,
• applied bending moment MB = 11 kN.m 

The value of the deflection at Point B caused by MB ( Part I) can be calculated as 138.91mm

Transcribed Image Text:

A propped cantilever beam is loaded by a bending moment of the magnitude MB at the point B as shown in Figure Q1. The cross- section of the beam is a rectangle of the width w and the hight h that are constant along the length of the beam L. The beam material's Young's modulus is Q. AY A |- Figure Q1

Transcribed Image Text:

Based on the given values of dimensions and material parameters, the value of R can be calculated as kN; the value of the vertical reaction force at Support A can be calculated as kN; the value of the horizontal reaction force at Support A can be calculated as KN the absolute value of the reaction moment at Support A can be calculated as kN.m