Truss Bridge | Types of Truss Bridges | Analysis of Trusses | Method of Joints | Bridge Engineering
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- Опубликовано: 31 май 2021
- Truss Bridge | Types of Truss Bridges | Analysis of Trusses | Method of Joints | Bridge Engineering
Hello Guys
I am Rajib and Welcome to my RUclips Channel
This video describes -
Truss
Truss Bridge
Types of Truss Bridges
Analysis of Trusses
Method of Joints
Pratt Truss
Howe Truss
Warren Truss
Brown Truss
K-Truss
Bowstring Truss
Thank You
#Truss #Bridge #Analysis 
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Thank you so much for your effort. We need more videos regarding design of bridge such as design of Reinforced Concrete Bridge, deisgn of steel bridge and so on.
Great! With your video knowledge of trusses used on small surface loads to give a stable form capable of supporting considerable external loads over a large span. Popular TRUSS are NOT ONLY because of reletivety small amount of material. Vise of you how you define component parts of a truss bridge - stresses primaly in axial tension bending leads to compression in the top chord or horizontal members, tension in the bottom chord (vertical or dinamical).... Etc. WE HAVE SEEN IN YOUR VIDEO
Thanks for the information on types of briges....so useful indeed
Excellently explained... please upload more videos
Really appreciate it!!!!
Good explanation on #bridgeclassification. It's helpful to know about #roadandbridge in India.
Such a great video💝💝
Thanks bro very helpfull vid
good lesson, thanks!
Thanks alot
Keep it up continue
Thanks bro please make regular videos
U have explained well
Sir it's been around 1 year waited for next video
Finally it's uploaded
Thank you so much..
Sorry for that... Keep watching
New friends sending full support❤️
thankyou so much !
you are amazingg
Good Video. Thankyou
Keep watching..
Superb Brother
Thanks
Nice video brother.. keep it up .. and please maintain the consistency on your video upload.
Thanks .. Keep watching
I would really appreciate it if you could make a video about how to convert uniformly distributed loading on the truss to point loads.
Multiply the udl by between two joints by the distance between the two joins. Divide the answer by two and thats the load on each joint coming from the udl
In an ideal truss the members shall be not continuous , i.e. they shall be broken at joints.
But in practice for steel trusses , top and and bottom chords are continuous over 2/3 joints and spliced at 12 m, will it remain an ideal truss.Does the Chords not behave like beams in such a case.
Kindly explain.
Will the truss bridge become stronger if you add scalene triangles, with unequal angles? Or will the bridge collapse?
8:34 The main difference between tension and compression is that tension refers to forces that attempt to elongate a body, whereas compression refers to forces that attempt to shorten the body. The illustration in the video is different. correct me if I am wrong.
Its nothing but the reaction force (Newton’s third law of motion - “ For every action, there is an equal and opposite reaction” ). When we talk about the member being under compression it actually push the JOINTS to squeeze itself and the member being under tension it actually pulls the JOINTS to elongate itself. In “Method of JOINTS” when we draw free body diagram force in outward direction is compression and inward direction is tension because the calculations are for JOINTS.
Iron steel trusses not good on bridges.
You shouldn't to be in India, you must go to U.S.A or Germany where you'll get respect and money you deserve.
usa is trash compared to europe.