A 4 m long beam is subjected to a concentrated force P0 = 50 kN , a concentrated couple, M0 = 100 kN, and a triangularly distributed load starting at qo = 80 kN/m as shown. (a) Find the shear, V(x) and moment M (x) as functions of x. (b) Construct accurate shear and moment diagrams. (c) Calculate the location xmax of the maximum moment and its absolute magnitude Mm”.

A 4 m long beam is subjected to a
concentrated force P0 = 50 kN , a concentrated
couple, M0 = 100 kN, and a triangularly distributed
load starting at qo = 80 kN/m as shown. (a) Find the shear, V(x) and moment M (x) as
functions of x.
(b) Construct accurate shear and moment diagrams. (c) Calculate the location xmax of the maximum
moment and its absolute magnitude Mm”.
 
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The post A 4 m long beam is subjected to a concentrated force P0 = 50 kN , a concentrated couple, M0 = 100 kN, and a triangularly distributed load starting at qo = 80 kN/m as shown. (a) Find the shear, V(x) and moment M (x) as functions of x. (b) Construct accurate shear and moment diagrams. (c) Calculate the location xmax of the maximum moment and its absolute magnitude Mm”. appeared first on Superb Professors.

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