I want to mention that I am watching your videos on the lesson and reading the short lessons provided by my school and I feel like a genius. Thank you for making it easy to understand.
First thank you so much for your fantastic video.I have a question. Do we have a constant angular velocity? if we have that circular motion won't be occur becase it's a vector quantity, constant velocity it means both magnitude and direction is constant Am I right?
Thanks for the compliment! With regards to your question, please watch this video: www.flippingphysics.com/centripetal-acceleration-derivation.html Also, this one might help. It has more to do with the direction of angular velocity of a rotating object: www.flippingphysics.com/right-hand-rule-angular.html
My teacher was trying to demonstrate angular momentum and collisions using a beam, but he didn't explain it very well. Do you think you can make a video that goes through this example?
I found your channel about one week ago. I must say that you have a skill in teaching in a way that is from a students perspective. It`s like you know every question that comes to my mind and you explain them in a simple way. That being said I would like to give you some criticism too. While the three students that you have in your videos are a unique way to stand out, they are a little bit distracting. And I guess it takes you a lot of time to make these videos. If you would try to make videos more similar to khan academy or bozeman science it would be much easier to follow along. Obviously that would not be unique anymore, but I believe that your way of teaching and the skill to understand how a beginners mind in grasping these topics work already is unique by itself. But thanks anyway!
centripetal tangential centripetal tangential centripetal tangential ...is centripetal acceleration kind of force? because the force is the ability to change the acceleration of the body?
For those who want an elegant proof for the centripetal acceleration formula. Check out Matt's video th-cam.com/video/Q8b9r7forJA/w-d-xo.html Eng. Jonathan, I salute you. Please keep up "flipping" physics. DFTBA!
Holy Cow! Have any 3 of the students seen an Apparition of this halloween-costumed medieval DWARF in the room? He's flying on a Frizbee: a foreign exchange student from PUERTO RICO! If ay "OF U" do CATCH Him, as in Catch 22, He'll GRANT you a Wish fulfilled! P.S. Please ASK that elf about what It knows about CENTER SEEKING that WE Earthlings don't yet know about......
![[안방1열 풀캠4K] 베이비몬스터 'DRIP' (BABYMONSTER FullCam)│@SBS Inkigayo 241110](http://i.ytimg.com/vi/AQ4RIghEvUs/mqdefault.jpg)
![fellow fellow - พรุ่งนี้ไม่มีใครรู้ feat. INK WARUNTORN [OFFICIAL MV]](http://i.ytimg.com/vi/QP6JyjYx_W0/mqdefault.jpg)
I want to mention that I am watching your videos on the lesson and reading the short lessons provided by my school and I feel like a genius. Thank you for making it easy to understand.
Glad to help!
This is fantastic. the chronology of explanation is just awesome.Thanks a ton!
You are welcome. Thanks for the compliment.
Never understood this until know, thank you
Glad to help!
Your videos help so much. After calculus 3 I wanted to get into physics
Great! Enjoy.
0:06-0:10 Top 10 Anime Song Intros
thanks
These videos are so much more helpful thanks for helping
What a phenomenal video! Thank you!
You're very welcome!
U r amazing. Thanks for giving us such a beautiful knowledge.
First thank you so much for your fantastic video.I have a question. Do we have a constant angular velocity? if we have that circular motion won't be occur becase it's a vector quantity, constant velocity it means both magnitude and direction is constant Am I right?
Thanks for the compliment! With regards to your question, please watch this video: www.flippingphysics.com/centripetal-acceleration-derivation.html
Also, this one might help. It has more to do with the direction of angular velocity of a rotating object: www.flippingphysics.com/right-hand-rule-angular.html
Thank you so much for all of your videos, really helps!
AMAZING AND VERy useful for us thank u so much
Most welcome 😊
excellent performance
helpful as always
that was very very useful ! Thank you
You are very welcome!
My teacher was trying to demonstrate angular momentum and collisions using a beam, but he didn't explain it very well. Do you think you can make a video that goes through this example?
I found your channel about one week ago. I must say that you have a skill in teaching in a way that is from a students perspective. It`s like you know every question that comes to my mind and you explain them in a simple way. That being said I would like to give you some criticism too. While the three students that you have in your videos are a unique way to stand out, they are a little bit distracting. And I guess it takes you a lot of time to make these videos. If you would try to make videos more similar to khan academy or bozeman science it would be much easier to follow along. Obviously that would not be unique anymore, but I believe that your way of teaching and the skill to understand how a beginners mind in grasping these topics work already is unique by itself. But thanks anyway!
please can you explain how did u get (centripetal acc)a=(Vt)^2÷t?
www.flippingphysics.com/centripetal-acceleration-derivation.html
@@FlippingPhysics Thank You for sharing.
Youare working great
Thanks.
Very helpful, thanks
You are welcome!
How can I increase or decrease Centripetal Aceleration?
You see the equation a = rw^2? Increase the radius and/or the angular velocity to increase the centripetal acceleration and vice versa for decreasing
centripetal tangential centripetal tangential centripetal tangential ...is centripetal acceleration kind of force? because the force is the ability to change the acceleration of the body?
Please watch: www.flippingphysics.com/centripetal-force.html
Fantastic
Much appreciated.
For those who want an elegant proof for the centripetal acceleration formula. Check out Matt's video th-cam.com/video/Q8b9r7forJA/w-d-xo.html
Eng. Jonathan, I salute you. Please keep up "flipping" physics.
DFTBA!
Great
thanks
Its 2 am in india ... you are saying good morning wtf
Khan Ukkasha Farqaleet so he is right. U urself wrote 2:00 A. M.
+Saraswati Sharma Exactly.
Now in India ..its 2:49 am ...wtf
Holy Cow! Have any 3 of the students seen an Apparition of this halloween-costumed medieval DWARF in the room? He's flying on a Frizbee: a foreign exchange student from PUERTO RICO! If ay "OF U" do CATCH Him, as in Catch 22, He'll GRANT you a Wish fulfilled! P.S. Please ASK that elf about what It knows about CENTER SEEKING that WE Earthlings don't yet know about......
ok .so nice but I nearly closed the video because its intro. is too boring