A cantiliver beam 2 m long carries a uniformly distributed load of 18 kN/m throughout its length and a concentrated load of 52 kN at mid-length. To minimize the displacement, a spring support is added at the free-end. Given: Spring constant, K = 0.10 mm for every 1 kN of compressive load Flexural rigidity, El = 2500 kN.m² Y w=18 kN/m #10 Calculate the reaction (KN) at the spring support. #12 #11 The The spring support compressed by 0.5 mm, what is the resulting reaction in KN? If the reaction at the spring support is 25 KN, what is the resulting moment (kN.m.) at the fixed end?
A cantiliver beam 2 m long carries a uniformly distributed load of 18 kN/m throughout its length and a concentrated load of 52 kN at mid-length. To minimize the displacement, a spring support is added at the free-end. Given: Spring constant, K = 0.10 mm for every 1 kN of compressive load Flexural rigidity, El = 2500 kN.m² Y w=18 kN/m #10 Calculate the reaction (KN) at the spring support. #12 #11 The The spring support compressed by 0.5 mm, what is the resulting reaction in KN? If the reaction at the spring support is 25 KN, what is the resulting moment (kN.m.) at the fixed end?
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Transcribed Image Text:A cantiliver beam 2 m long carries a uniformly
distributed load of 18 kN/m throughout its
length and a concentrated load of 52 kN at
mid-length. To minimize the displacement, a
spring support is added at the free-end.
Given:
Spring constant, K = 0.10 mm for every 1 kN
of compressive load
Flexural rigidity, El = 2500 kN.m²
Y
w=18 kN/m
#10
Calculate the reaction (KN) at the spring
support.
#12
#11 The
The spring support compressed by 0.5
mm, what is the resulting reaction in KN?
If the reaction at the spring support is 25
KN, what is the resulting moment (kN.m.)
at the fixed end?
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