Physics of Banked Turns
Describes the physics of banked turns.
Video Rating: 4 / 5
An A Level Physics revision video covering Potentiometers, Rheostats and Potential Dividers.
Video Rating: 4 / 5
Describes the physics of banked turns.
Video Rating: 4 / 5
An A Level Physics revision video covering Potentiometers, Rheostats and Potential Dividers.
Video Rating: 4 / 5
Thank you very much for this video, I have to say though, that airplanes
(and toy airplanes) actually need to bank (lower one of the wings) in order
to turn (bank angle), and what makes an airplane turn is actually a
component of lift. But this has been super helpful, I can tell you there
are a bunch of pilots out there that just memorize the equation and plug
the numbers in it without knowing the physics behind it.
Commendable explanation
Clear diagrams,
Good!
This video helped me a lot and I’m finally no longer confused 😀 THANK YOU
SO MUCH!!!!
Thank you so much, I get this so much more.
Fuck my physics teacher
is the center really a line and not a point that the normal acceleration is
perpendicular to? if it was a point then An is not horizontal?
can i have u as my physics teacher? my physics teacher is horrible at
teaching…
i love you
I’ve built a small android app to demonstrate airplane turning physics.
https://play.google.com/store/apps/details?id=appinventor.ai_grejen711.Turn
Thank you Sir
The world finally makes sense. Thank you so much!!! Three weeks of Physics
lectures weren’t good as your video!
ahhhhhh sooo amazing, thank you!!!
So helpful, thank you!
excellent video.
Aha!
thinks for this video.
“simple physics for something that looks so complicated” no sir.. u make
complicated things so simple and easy to understand! thanks a ton!
I love it!
thank you so much. this is such a great explanation
You made my life so much easier!
Easy to understand, nice …
ur a wonderful teacher kind sir. Thank you.
THANK YOU SO MUCH! LIFESAVER
if you are a teacher, I hope your students appreciate how great of a
teacher you are. I wish I had an instructor like you for high school or
college physics.
Do we make the assumption that the resistance would be equal to the length
in 14:37 at all times?
Potential Divider start from 5 mins
These longer videos are useful, it’s so much easier to understand more when
you lead from one thing to another, and always thinking back to one
particular example. Also nice to have examples to real life as sometimes
electricity just seems to me too random to be part of everyday life. Thanks
for the videos.
As-level unit 2 tomorrow ._.
in potentiometer if upper wire is removed and attached to the lower part of
wire?
careful DrPhysicsA, are these batteries or are these cells??
14:17 Vsauce xD
i have already written my A level physics(100 percent for theory). but i
still love coming to watch these videos. they are amazing and remarkably
entertaining.
8:16 Wouldn’t the bulb be connected parallel to R1? In that case current
(I) going through the bulb is determined by the resistance of the bulb
itself knowing the value of voltage which is 5V.
THANKS SIR
Thank you very much sir. You saved me from lots of confusions.
As soon as you hook something up across Vo it is going to draw some
current. So the current passing through R1 is no longer the original I
value, and so how can Vo still be 5V?
Does the potentiometer and the rheostat holds the same definition?
The resistance varies with the length of the active part of the
potentiometer. So as length decreases so does resistance.
They pretty much do the same thing. But one has three terminals and the
other only two. in essence, in the former, you apply the full voltages
across the device and tap off a particular value. In the second case you
are simply using a variable resistance.
I dont believe he has the time for all of us, so I suggest you to just be
patient 🙂
Great video! At the very end when you solve x = 4.4cm ….you were actually
solving x for the value of R1, so it should be x = 4.4 Ohms. Or, Vo = 4v
when the position of the potentiometer is such that R1 = 4.4 Ohms. Thanks!
THANKYOU this helped me so much!
Ahaha Vsauce! 9:01
Thank you sooooo Much for this Video I really appreciate
Live saver XXXXXXXX
Sir, why don’t u reply my Answers ?
Hey, great videos! keep up the good work!
Good luck. I hope they go well.
F*ck off!