Time period of a pendulum depends on its length | Oscillation| Physics
String up a pendulum, move the bob to one side and let go to set the pendulum into oscillations. Use a stopwatch to measure the time the pendulum takes to complete ten oscillations. Diving this time by 10 gives us the period of the pendulum i.e. the time taken to undergo one oscillation. Decrease the pendulum's length and repeat the above to get the new time period. We see that as the length becomes shorter, the time period decreases. This shows us that the length of a pendulum and its time period are related
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Being a teacher of science I am very happy to see your video. It is so informative and practically explained and more over it's very much precised. Thank you for sharing this kind of videos. Keep going 😊
THANK YOU SIR FOR YOUR EXPERIMENT IT'S IS EASIER THAN WHAT I THOUGHT...THANK YOU
You explain very well ! Thank you so much
what is the length of the string (first oscillation - longer string)
Thank you very much. I just passed Physics practicals now with the help of the short clip you made.
ya simple and also got understood
You not mentioned on what assumption formula for time period of pendulum derived, it is that angle rope make with perpendicular vertical should be less then 5 degree in which it does not depend on its length.
New and technically original idea - hand water pump with a pendulum - provides alleviation of work, because it is enough to move the pendulum occasionally with a little finger to pump the water, instead of large swings. Using the minimum of human strength in comparison to present classic hand water pumps enables efficient application in irrigation of smaller lots, for water-wells and extinguishing fires even by old people and children, which was proved by a large number of interested future consumers during the presentations
Hello. Thank you for the excellent video. I'm currently working on an animation book and was wondering if I could use the pendulum video as a reference?
Simple and concise video, thank you.
@sultanalneyadi8377
2 жыл бұрын
7 years
@_Angelxfeels_
Жыл бұрын
@@sultanalneyadi8377 now 8 years
@priyodarshibarua2818
Жыл бұрын
@@_Angelxfeels_now 9 years
@SpendintlifeonYT
Жыл бұрын
@@priyodarshibarua2818gonna be 10 years
Thanks for explaining oscillations this helped
thank u so much for this
This video was simple, but it still it helped a lot, thank you
How do keep the direction of the pendulum so straight? Is there a technique?
Concisely Brilliant.
The speed stays the same right?
what is the weight of the ball?
How to calculate the average Time per swing in each case ?
thank u tmrw is my practical I am happy
Thanks for the help dude! our project is so much easier now!
@ahmed_shakeel0494
3 жыл бұрын
Hmm!!
thanks sir .. so helpful to me its my prac. exm today
Sir in 1st case what was the length of string
thank u soo much !!! :)
sir i like your vids because you show example to help i can understand more better
So can u make the wood a little smaller
Loved your explanation :D
Clicked looking for the ghost pendulum...
You voice is Awesome..sir u explain very good
Grrat video! I tried to do something similar but with "computer vision" (video available in my channel). Keep up the good work!
Very Nice Explaination Sir Concept Is Cleared
Hello :) great videos :) I wanted to ask if there is a way to create pendulum that will perpetually swing a weight of 45lb. I would like to build it myself, what are your suggestions as to calculating the length of each of the pendulum parts?
@Abuabdullah-ue1uj
4 жыл бұрын
I love u
@Abuabdullah-ue1uj
4 жыл бұрын
I like u
@danielmatthews12312
Жыл бұрын
I hope in the 6 years since this comment you’ve learned that there’s no such thing as a perpetual motion machine -best wishes and god bless
tomorrow is my practile .. I have worried a lot .. but after seeing this videoes I have felt better ... thanku sir
@QweRty-fy3oe
6 жыл бұрын
*practice *
Thanks a lot sir.. This video helped me a lot ..
Most of the comments are about taking tests, lol, I just wanted the calculations to make my dining room wall into a clock... Thanks for the video!
@nuya8178
3 жыл бұрын
me too bro
@quartermaster2809
3 жыл бұрын
@@nuya8178 did you just assume their gender?
@nuya8178
3 жыл бұрын
@@quartermaster2809 yes, any problem?
@quartermaster2809
3 жыл бұрын
@@nuya8178 I love you
very nicely explained!!!! i understood very well.
This concept is so easy Thanks
Very helpful thank you
Tysm! U helped me do my sci project! Thx bro
thank you sir. Helpful to me
Thanks! I am doing this in school and this video really helps!
Hello sir good afternoon tomorrow will be my test thanks my preparation is completed.
That same Pendulum Sir to an Engineer would ask how long does the Pendulum swing till it practically STOPS. What is that mathematical physics real world engineering formula = when the time IT STOPS?
Thanks for the video
Not quite true. As the initial pendulum swing must be slightly longer than the next and so on as the pendulum is slowly coming to rest.
Your teach method is very good 👍
Thank you!!!
Thanks !
Whew!!! (Feeling relieved) Got Physics Practical Exam tomorrow!!! Wish me luck :)
@abdullahzubair8338
7 жыл бұрын
A little Update: I got a 6/10 on that exam because I did a wrong conversion but I got full marks in what concept this vid is teaching..And I had my IGCSE exams in MAy/June 2016 and got A* in Physics among others,,
@tirathkumar4949
6 жыл бұрын
Abdullah Zubair gvg b hh
@arshdeep07
6 жыл бұрын
nice and what is the position right now:) ?
@faizanshoaib7785
6 жыл бұрын
Same here
@AnuragKumarThakur29
5 жыл бұрын
@@arshdeep07 Later he got constipated.
Awesome good video
not me just focusing on the insects and animals stored in those glass bottles 😱😳😵💫😵
Thanks
SO easy to understand Keep doing this Bahot acca kar rahhay ho app
Thank you so much sir
Thanku you so much it helpd me a lot
it took 8.5 seconds to complete ten oscillations with a shorter pendulum it took 13s to complete 10 oscillations
you just helped me pass my exam
I had to comment on this! SPOT ON!
Thanks sir
Thanks Sirji
Us will make activities for this thanks you po sir for your help on the pendulum
Whats amplitude of oscillation
Great sir
God bless you sir
Sir Can you do a video on its dependence with 'g'?
Omg !!!! Thanks a lot
What’s good Precalc🤟🏽
you are a great man
But why it depands on the length
Thanks dude
thank u
Great sir🙏🏻🙏🏻🙏🏻
Thnku sir u made it so easy to learn👍
practical exam is tomorrow it helped me
@QweRty-fy3oe
6 жыл бұрын
what did you get
very helpful
Wooooooow superb 🤯🤯🤯🤯🤯🤯🤯🤯🤯🤯🤯🤯🤯🤯🤯🤯🤯🤯
THANKYOU
Was the counting correct?
thanks so much because I have a test tomorrow about this
Tq sir it helped me
Thanks ... Physics teacher here ... Why is it a NON-linear graph? We made a pendulum in class up to one meter ... but the curve begins to flatten out ... after one meter ...
Does amplitude change cause a change in frequency?
@pankajkumardas3058
2 жыл бұрын
The relation between the amplitude and the frequency of the wave is such that it is inversely proportional to the frequency. An increase in frequency results in a decrease in amplitude. A decrease in frequency results in the increase in amplitude.
thank u soo much
Nice video
👍 thanks
thank u ^^
Wonderful sir😉😉
thank you
does it depend on the mass of bob also?
@mallikarjunahosalli6644
Жыл бұрын
No It doesn't depend on mass
Thankyou
Thank for teach pendulum before I see I can not understand but now I understand pendulum
What happens if you have an infinitely long pendulum?
@gurpreetshikha9328
7 ай бұрын
Will take infinite time to complete one oscillation making the time period infinity
Tq so much
Thanks 👍😊 sir
Awesome 🔥
@shubhraroy9694
2 жыл бұрын
Are u Mallikan ??
Why it is so that time period increases due to increase in length of string
@pronaybhoumick1897
3 жыл бұрын
T=2π√l÷√g U can see clearly that T is directly proportional to the length of the string....
The goal of this work is to summarize the findings from previous papers along with some additional comments and also to answer two basic questions: how to construct an efficient Veljko Milkovic two-stage oscillator and how to measure the quotient of efficiency of the constructed oscillator. The goal of this paper is to explain all the facts about construction and measuring in order to facilitate other people's efforts towards a replication embodying a high efficiency quotient.
sir ji ye sidhant pahele galileo ne diya tha
good
nice
Nice