Consider an infinitely long l-beam. There is a Gaussian distribution w(x) acting over the entire I-beam, as shown in the figure below. w(x) = e-(x m-1)2 kN/m x = x0 What is the resultant force acting over the I-beam from the distributed load? What is the resultant moment from the distributed load about the point xo? Note that xo = -5 m. (Hint: do some research on the Gaussian integral).
Consider an infinitely long l-beam. There is a Gaussian distribution w(x) acting over the entire I-beam, as shown in the figure below. w(x) = e-(x m-1)2 kN/m x = x0 What is the resultant force acting over the I-beam from the distributed load? What is the resultant moment from the distributed load about the point xo? Note that xo = -5 m. (Hint: do some research on the Gaussian integral).
Related questions
Question
Please include given (what variables are given), find (what variable to find), and solution.
Transcribed Image Text:Consider an infinitely long I-beam. There is a Gaussian distribution
w(x) acting over the entire I-beam, as shown in the figure below.
w(x) = e-(x m¯1)² kN/m
х— Хо
What is the resultant force acting over the I-beam from the distributed load? What is the resultant
moment from the distributed load about the point xo? Note that xo = -5 m. (Hint: do some
research on the Gaussian integral).
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
This is a popular solution!
Trending now
This is a popular solution!
Step by step
Solved in 4 steps
