What is a Response Spectrum Analysis? and How to use it in Seismic Design of Structures?
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- Опубліковано 10 січ 2022
- In this video, the use of Response Spectrum analysis in seismic analysis and design is explained.
The video answers the following questions: What is a Response spectrum curve and how to draw the curve for a specific earthquake and how to draw it using ASCE7-10 code provisions.
An example is given on how to design a Single Story Single Degree of freedom system using ASCE7-10 Response Spectrum method.
you just explained a whole course in 13 minutes, and I feel safe that there are others like me
I passed CA seismic exam on my first go. Walked away feeling like I didn't have a good grasp on the topic. You did in 15 minutes what I couldn't learn in 100 hours of studying. Thank you.
Magical way to explain one of the most complicated engineering subjects, highly appreciated your efforts.
Dr Nafie is a talented teacher! 13 minutes of pure enjoyment, thank you very much! 🙂
If one can understand what you teach in one sitting, then you know you have done a good job. I subscribed immediately after watching the video. Thanks. Civil Engineer from Lagos, Nigeria.
Thanks a nice graphical explanation.
Easy to understand a complex subject.
This is the best explanation of response spectrum on the internet.
I really appreciate your effort on this. In my university the lessons skips the basics and the explanation on those basics, but you are so clear to spell out this. Thank you! I really want to become a good structural engineer, regards from Chile.
I am glad you benefited from the lectures.
Never stop seeking knowledge and God willing you will be a very good structural engineer.
Excellent presentation. Thank you.
I have to write a paper where this appears and all the textbooks where just filled with absurdly complicated graphs and equations.
Thank you so much for making this! It really helped me out a ton
Amazingly explained. Really appreciated and thankful.
EXCELLENT !!!! THE BEST Description ever seen on youtube.
Thank you very much for the compliment
Perfect explanation. Really appreciate your efforts
Thanks for this valuable details
is very important, basic and understandable piece of lecture. Thank you so much!
Quite impressive, love the way of teaching
Undoubtedly great video, thank you. Constructive criticism from a non-engineer (and general advice to presenters of all kinds): Give the point of the slide at the beginning instead of the end
Great explanation. Congrats !
The best video on the subject I have found. Thank you very much!
I am glad it was helpful
Please Sir. Keep upload new videos. You teaching very simple way and I am learning from your video Sir. Kindly upload more videos. Very thank you.🎉
Thank you sir for making my understanding to this topics very well, you make a hard one become easier
Very useful information about response spectrum.
Complete insight of this topic
You explained so nicely. I am finally able to understand this concept after years. Thanks alot and keep up the great work
Glad It was helpful
Congratulations. You helped me to understand in depth
Excellent
this was amazing, very informative...thank you! cant wait for more videos
I am glad it was helpful
Great explanation. Please make video on how we use this shear force for further design
Very good explanation
Thank you very much. The best explanation of Response Spectrum I have found. Its something I've been trying to really understand for a while.
Minor typo error at 10:52 where Sa in Y-direction is first stated as 0.056g but then calculation based on 0.192g.
I am glad you liked the video.
Yes you are correct. The correct value is 0.192 g, thank you for your feedback. However, it is not possible to correct a you tube video once it is posted. God willing, I will correct this type in the next version of the video.
Very good simple and clear explanation abut Spectrum Analysis. Thank you.
I am glad the video was useful
thank you so much. keep uploading more videos like these.
Thank you. God willing I will do my best
nice explanation sir....
Thank you Professor
Thank you very much!!!
Very informative video ever. Thank you for your efforts
I am glad the video was helpful
Thank you!
I've just watched 2 minutesand already I know the very basics - and can see I'll be shown further basics in quick time. Very informative and well explained [I'm a UK-based structural engineer with virtually no seismic design experience. But now I've been put on a Saudi project in the most seismic end of the country and need to get my understanding up very quickly!]
I am glad the information was helpful to you.
My long term goal is to include a complete seismic design guide for structural engineers.
However, currently I have just touched the basic concepts. God willing I will work progressively to complete my goal as time permits.
In Saudi Arabia, there are parts that are highly seismic especially in the south and you may reach Seismic Design category D or E, and this may need special consideration in the design and detailing.
Good luck with your work.
If You have any vacancy in ur firm kindly contact me
Thank you sir. for making us fundamentally strong. Dynamic name itself very hard word but you teach in very easy way. 🙏
I am glad the video was helpful
You are incredible, thank you so much!
Thank you for the compliment
Very informative. Thanks a lot
Glad it was helpful!
Amazing explanation... Thank you
Thank you for the compliment
Salute to you sir 😘 !!!! Great explanation!!!!!
Thank you very much for the compliments
thankyou sir..it was very helpful in understanding the basics..
I am glad the lecture was helpful
Thank you sir, It was very Helpful.... waiting for the next lecture (Multi storey Building)
I am glad it was helpful
Thanks for the video.
I am glad the video was helpful
Simple, short and sweet. Lovely simple explanation, easily understandable. Hats off!!
Thank you very much for the compliments
thankyou for your magical explanation. i wanna ask a bit. how you determine a value for natural time period (0.2, 0.4, 0,6...) ???
excellent
Thank you so much!
I am glad it helped
GREAT VIDEO .... EXCELLENT, EXPLAINED IN BRILLIANT WAY, VERY HARD TOPIC, You made it easy... :)
I am glad you liked it
Assalamualaikum Sir. As a 2nd yr student in BTech Civil this was super helpful. I came across this word response spectrum and wanted to know a bit more about.
I am glad the video was helpful
Very informative video and explained the concept very easily. Thanks for the video. Can't wait for multi story building RSM video. Also can you please start a course on Earthquake Engineering?
I am glad the video was helpful.
I am currently working on the Multi-Story Response Spectrum lecture. God willing, I hope I can Upload it soon
In Fact Response Spectrum is part of an earthquake engineering course. However, I am not taking the course from down-up,
Eventually, after covering enough material in the lectures, I hope to re-order the lectures into a complete Earthquake design course.
Sir your lecture is very interactive, please upload next lecture as soon as you can👃
I am glad the video was helpful, and I will do my best to upload the next video as soon as I can.
Amazing video
Thank you for the complement
Thank you very much.
I am glad the video was helpful
Thanks Sir, now am clear about RSA. Kindly prepare a series on Time History analysis also.
I am glad the lecture was helpful.
God willing, I will do my best to add more videos as time permits.
is it a harmonic analysis when making response graphs (max acceleration)?
thank you.
You're welcome
is we can use this code (asce7-10) to make a respon spectrum cure when our building is wind turbine ?
Good job
Thanks
Thanks for the kind video. I have one question about 6:40 . How to determine the range of X-axis to watch out for? Do we need to implement modal analysis for a given system? For example, if the natural time period (T) of a given system is 2 (lowest) to 4 (highest) through modal analysis, can we conclude that the effects of earthquakes are similar to the given system?
I am happy the video was helpful
This video is concerned only with the single Degree of Freedom systems (Only one Story). There is another video for Multi-Story Buildings.
For one Story Buildings. IF 2 buildings with the same T is subjected to the same Earthquake, they will both have the same response acceleration irrespective of the shape or size of the building.
But the Forces acting on the buildings will be different. The force is equal to the acceleration multiplied by the mass. So the mass will also affect the response.
Request to explain for multi storey building also - many unanswered doubt get clear sir thanks alot for your efforts & we the junior structural Er request you to touch all topic related to earth quake analysis
God willing multi story Response spectrum is my next video. I can't promise a date as it depends on my free time, but I hope it will be soon.
What software did you use to create vibration animations? Thanks for the amazing video.
I was glad the video was helpful. The vibration animations was made by Synfig Studios which is a free software.
thanks for such a nice video..but i steel did not understand how we convert time-acceleration (earthquake data) to accelration-period (design spectrum)? Becouse earth data comes with time and time converted to period...in this particular transition what formula we use? have any video to explain pls or planig to make such a video? thanks
This process of changing the seismic acceleration data to response spectrum is explained briefly in the video as it is not the main intent of the video. It was just mentioned as a mean of explaining what is a response spectrum. I hope I will be able to do a separate video about this step when time permits. However, most designers don't need to do this step, since the response spectrum is given in most design codes like the ASCE7 code and the Eurocode and all other national codes.
Sir hope continuously to get new video,,plz
God willing, I will do my best.
Best
dear doctor please how can obtain (U) from earthquake ground motion to find acceleration of the building
If you look at the equation of motion of a SDOF building subjected to earthquake motion ( In dynamic analysis books) you will find that the relative displacement (U) of the building is directly related to the acceleration of the earthquake motion. Recall that the relative displacement (U) is the difference between the displacement occurring at the top of the building and the displacement at the foundations . From the response spectrum curve you obtain the acceleration of the earthquake, from which you can obtain the earthquake force, and from the force you can obtain the relative displacement (U).
I am working on base isolation with newmark beta method to solve the eqn of motion... Can you make any video on this!!
Unfortunately I don't have enough experience in this subject to make a video. Good luck with your work.
Structural reading should specified level of strength it can handle before building so reduce insurance cost
Sir, At first, you drawn the curve, by keeping the mass constant and changing the height for getting different Time period (T) and working out on a particular EQuake Data, for obtaining a response spectrum Curve. Right? Sir, in this process, if we workout for a building with a different mass, then the curve also changes, As the mass is a dependend factor, right? then how is it possible to multiply a random building mass with the acceleration, corresponding to a partiular time period, for obtaining its shear force???? please help
To explain this point we have to differentiate between two things. The building acceleration and the shear force.
When the building is subjected to a certain acceleration at its base ( the earthquake acceleration), the building will start to respond by its own acceleration ( the response acceleration). This response acceleration is dependent on the building natural frequency and not on its mass or stiffness.
Of course the natural frequency is dependent on the ratio between the mass and the stiffness. If you change both the mass and stiffness so that the ratio is constant the response acceleration will not change. It will only change when you change the ratio between the mass and the stiffness. That is why in the video we changed the stiffness (by changing the height) without changing the mass (i.e. we changed the ratio so we changed the natural frequency) and therefore the response acceleration also was changed.
Of course in structural analysis we are interested in the force and not the acceleration. The shear force is equal to the acceleration multiplied by the mass.
So to answer your question, the seismic force is of course dependent on the mass, but the acceleration is not. The acceleration is dependent on the natural frequency.
The response spectrum curve give us the response acceleration and not the force. When we obtain the acceleration from the spectrum curve, we multiply it by the mass of our building to obtain the force.
@@drnafie-structuralengineer4620 I noticed for as you increased the height of the building to produce different time periods, the graph went down despite the increase in height... please explain
can you make a tutorial on how to use SynFig, please? :)
I am not an expert on this program.
However, I will put it in my schedule to make 2 or 3 simple tutorials on the program.
@@drnafie-structuralengineer4620 all we need is as good as your animations
@@drnafie-structuralengineer4620 hi, have u got any chance for SynFig tutorial?