"kN.m is a unit of bending moment.
kN/m is a unit of udl (uniformly distributed load)
as far as i know, there isn't kN.m2 but there is kN/m2
kN/m2 is a unit of pressure acting on an area.
Please check your question again."
I think you have misunderstood the question. The asker can correct me if i'm wrong but I think they mean, for example, that if you have a uniformly distributed load over an floor area in kN/m2 and you have say a beam running across this floor that you would like to run an analysis on, what would be the value of the load in kN/m on the beam?
would it simply be the same value in kN/m or would the conversion affect the value? I say this because I'd also like to know the answer :)
turning on a lightbulb
1 ton refrigerant= 3.5 kW
You don't. Hp and bar measure completely different things.
chopper is a circuitry to convert DC-DC for eg: 116v dc to 150v dc.
While there is no direct correlation, with higher ferrite numbers ( >30) a factor of 0.7 can be applied to produce % ferrite.
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As of July 2014, the market cap for Konami Corporation (KNM) is $3,242,161,999.52.
Uniform Distribution Load Uniform Distribution Load
It is: DCXXXV = 635
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Atenolol tablets USP is the treatment of hypertension, which is low blood pressure. Atenolol tablets UDL is what controls high blood pressure.
Taken from a NASA paper (2010 ASCE Earth & Space, Robotic Lunar Geotechnical Tool);Bearing pressure (kN/m2) = 26.16CBR0.664NOTE: this is only an approximation as there is no real direct correlation between bearing pressure and CBR
UDL stands for Universal Design for Learning. It is an educational framework that aims to provide all students with equal opportunities to learn by offering multiple means of representation, engagement, and expression.
udl is converted into point load by multiplying the value of udl with the length of the section of the beam over which the udl is acting.these converted point load is acted at the middle of the section.
When a cantilever beam is loaded with a Uniformly Distributed Load (UDL), the maximum bending moment occurs at the fixed support or the point of fixation. In other words, the point where the cantilever is attached to the wall or the ground experiences the highest bending moment. A cantilever beam is a structural element that is fixed at one end and free at the other end. When a UDL is applied to the free end of the cantilever, the load is distributed uniformly along the length of the beam. As a result, the bending moment gradually increases from zero at the free end to its maximum value at the fixed support. The bending moment at any section along the cantilever can be calculated using the following formula for a UDL: Bending Moment (M) = (UDL × distance from support) × (length of the cantilever - distance from support) At the fixed support, the distance from the support is zero, which means that the bending moment at that point is: Maximum Bending Moment (Mmax) = UDL × length of the cantilever Therefore, the maximum bending moment in a cantilever beam loaded with a UDL occurs at the fixed support. This information is essential for designing and analyzing cantilever structures to ensure they can withstand the applied loads without failure.
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Please this is the image