I so much wanted to listened to this but the music drove me so crazy I couldn't get past 45 seconds!!! If you were in the classroom would you really have horrible music like this playing in the background???
Appreciate the feedback. This was still one of my first videos, trying to learn how to youtube. Music is long gone from my videos. I think I will redo this one actually showing some springs in series and parallel on the camera.
loved the backing track goes hard at 1.5x speed
haha! Effects of frequency increase!
Thanks, this was really useful keep up the good work!
Glad it helped!
Sir, wouldnt the springs in series have the same extension also?
Nope, in series each spring gets extended by a certain amount so the total extension is larger. Hope this helps!
Thank you for this video!
Anytime!
hi sir, i havenr seen this in the ocr a spec. does this come up in exam questions? and do we need to know the derivations? or just the formula ?
no this is for OCR B specification not for OCR A
Thank you for the video!
anytime!
Is this still in the OCR A spec?
yep!
Big fan !
is this in AS level materials???
yep, while these formulas are likely not be derived at AS problems involving them do appear in combinations of springs.
Thank you for this video!
Anytime! Thanks for the comment!!
Why is it raise to the power of minus 1 ? @ 1:07
(1/k)=k^(-1), hope this helps, just easier to put straight into a calculator
thank u for this!
Anytime!
I so much wanted to listened to this but the music drove me so crazy I couldn't get past 45 seconds!!!
If you were in the classroom would you really have horrible music like this playing in the background???
Appreciate the feedback. This was still one of my first videos, trying to learn how to youtube. Music is long gone from my videos. I think I will redo this one actually showing some springs in series and parallel on the camera.
@@zhelyo_physics please do!