GCSE Physics - Terminal Velocity #55
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- Опубликовано: 6 окт 2024
- This video covers:
The concept of terminal resistance
What affects air resistance
The link between resultant force and acceleration
General info:
Suitable for all GCSE and IGCSE courses
See below for whether it is higher or foundation tier for your exam board
See below for whether it is triple or combined for your exam board
Exam board specific info:
AQA - Only need to know the details if you're doing triple (separate), otherwise you just need to know the general idea of terminal velocity
IGCSE Edexcel - Everything is relevant to your course!
Edexcel - Not in you course
OCR 21st Century - Not in course
OCR Gateway - Only relevant for triple (separate) and higher tier.
GCSE Chemistry playlist:
• GCSE Chemistry - Atoms...
GCSE Biology Playlist:
• Video
GCSE Physics Playlist:
• Video
I WILL NEVER BE TIRED OF THANKING COGNITO!
On the contrary to others in this comment section I have no test I never studied this but i saw a video of a baseball reaching terminal velocity and I had to know what the hell that supposed to mean
It can be explained... with *G R A I N*
Dude sameeee, same exact thing with me,I saw the baseball video a few minutes ago
Literally the same
same 🤣
YES LMAOO
This is sososo helpful, you explained it so clearly in 7 minutes, so much better than my teachers who have an hour. Thank you so much!!!!
yep
i disagree, it was at least sososososo helpful, give the man some credit
it's much more helpful than your other teachers because you found this video because you were in the mood to learn
@@roylim1169exactly, while in class he was probably not interested
Thank you cognitio for all these videos... they help me with my tests so much... ty
Hey mate no worries thank you for taking the time to comment and support us! Good luck with all your work :))
@@Cognitoedu me too :D
omg ur in my year....
When you have the test in 4 hours
I have a test in 3 hours😂😂
I have mine in 2yrs 🤣
i have mine tommorow
mines tmrw
@@dulikajayasekera7866 same 😭 goodluck
Everybody failed to explain this concept but you got a distinction! thank you for the amazing video...
they didnt fail to explain it you just failed to understand it smh
@@calmingnature-whitenoise6945 no
NO SCIECE SHOULD BE TAUGHT ANIMATIVELY
@@calmingnature-whitenoise6945
As a grade 8 student, I feel amazing to understand this.Thank you to do this such great job to help me understand the diffuicult physics. I am recognize your efforts
Funny...I was grade 8, 1 year ago....
who?
Try to find anyone in the comments who don't like these videos - they're super great
If you’d like to practise what's covered in this video, check out the lesson on the Cognito platform - cognitoedu.org/coursesubtopic/p2-gcse-aqa-h-t_3.06. The platform’s totally free, and has been built to make learning and revision as easy as possible. The main features are:
- Lessons organised by topic, only the lessons relevant to your specific exam board and tier are shown.
- Automatic progress tracking. Progress bars tell you what you’re doing well at, and what you need to spend some time on.
- Practise quizzes so you can test your knowledge. You can quiz yourself on any combination of topics you like.
- A huge number of fully-hinted questions that take you step-by-step through some of the trickiest calculations & concepts.
- A comprehensive bank of past exam papers, organised both by year, and also by topic.
Amadeus & Tom
Reminder to pin this!
Pin
YOU ARE THE BEST TEACHER OUT THERE
Animation 10/10
Explaning 10/10
40 mins zoom class-even couldn’t understand a single thing.
And here 7 mins , where i became the father of terminal velocity.
TYSM 🌈✨
I’ve already done my GCSEs but I still find this video very helpful for Mechanics in A Level Maths
What should be the energy changes here?
@@saminyasar6084what were they?
this is gonna sound weird but am i the only person who finds his voice really relaxing
omggg sly ? the same thing tht i just thought a second ago?😅
this gonna sound even weirder but am i the only person who thinks he's also a teeny bit kinda..
no frrr
@@maherischlong LMAO REAL
Omg your videos moved me up 3 grades THANKYOUUUUUU
U should make a level videos aswell
Legend!! I COULD NOT understand a thing my teacher said in the lesson... WOW !! Can’t thank you enough!!!👏👏👏
Thanks Kate 🤩 glad it helped
same
You are an absolute saviour for all my science exams 🙏
Excellent and very detailed video, I give you my utmost thanks, this will truly help a lot!
Levi
This was just so helpful,you saved my time for revising ☺️
thank you so much frfr i have a physics exam tmrw and u were a life saver 😇
It makes a lot more sense now FOR REAL. thank you so much!!!!
❤ Much Thanksss
Got my Physics Paper 2 tomorrow, you made it so clear to understanding and the explanation is awesome too
Same lololopopopopopopopl
what is your grade in physics
Who is here the day before the exam 😂
Me
@@WorkPurpose-pq1rl all the best buddy!
Great. Even though I am studying AS Physics right now (I used to watch this video too when revising for my IGCSE), this video is still exceedingly useful 🤩
This has done such a good job at explaining the topic, thank you so much!
So basically terminal velocity is the maximum velocity at which an object goes and acceleration is 0 since air resistance is equal to the gravitational pull. Thanks for explaining it clearly in less time❤❤❤🎉
How I miss the time when the only physics knowledge we had to know was friction
Amazing Explanation
Thanks from *PAKISTAN*
This really helps in exam. Thanks a lot, cognito
lol this is the only channel that actually explains shix properly
frfr
cramming this is in before mini mocks tomorrow
Tomorrow is my phiscs paper hope this vedio would help
Thanks
How do you only have 28k subs????
Thank you very much. It's really helpful.
This helped so much. Congito you are a legend !!!
You made this so easy to understand you have no idea how much this helped thank you
Greetings, Great explanation sir!
Thx alot it really helped
Good work appreciated ☺️
Here for the last physics paper 2 test gcse 😭🙌🏾
same 😭
thank you so much for making this video,this helps me a lot
Great video! This topic is very confusing so thanks very much!
great explanation
Thank you so much, very clear explanation
3:41 "As the person's velocity increases though"
Why does it increase in the first place? If there is not an extra force other than the weight, why would velocity increase?
U sure ur not sleeping whilst watching this
It’s because of gravitational energy weight
Dude it really helped me ,Thanks a lot
This was so helpful
so does that mean they are levitating?
Great video. What do we do when they ask this?
Describe the motion of objects falling in a uniform
gravitational field with and without air/liquid resistance
(including reference to terminal velocity)
Thank you 😊
With air/liquid resistance, terminal velocity takes place. - As explained in the video, the resultant force increases due to gravity, weight etc. But, acting against this is collisions with the air/liquid (air/liquid resistance) which also increase due to the velocity increase, causing a decreasing acceleration. Until, they each cancel out and terminal velocity is reached.
However, when there is not air/liquid resistance the resultant force will not have any opposing forces so will continue to accelerate until stopped.
so the motion of objects with resistance slows down whereas lack of resistance means that it continues to accelerate until gravity no longer acts on the object (e.g. it hits the floor)
im not sure how well I explained that but I hope it helps
@@olive4789 heyyy thank youuuuu and good luck on any future exams☺️☺️
Woulda been dope to have some footage of jumping out of a plane to show this. Like right when you jump out its gonna be fast falling. Then you slow. How interesting.
This is really helpful, thank you❤❤
shushh you grayboy
@@Mrbusiness01 im a girl
But why is the second terminal velocity lower if the weight is the same throughout and at terminal velocity the air resistance is the same too? Shouldn’t the terminal velocity be the same if the weight is the same??
@@mahtajr5157 thanks but I understand now, the bit of info I was missing is that reaching terminal velocity is not a specific set maximum speed but a constant speed.
When I’m reading my test paper questions, I read it in his voice 💀
Thanks 😊😊 this video is helpful
Best demonstration
thank u sooo much
When you have exam in less than 24 hours
truly well explained!!
Thanks helped me a lot! Understood better than when my teacher taught me...
Gravity isn't caused by 'earth pulling you down' ... Gravity is caused by the curvature of space.
semantics which are utterly irrelevant to this explanation.
Why is the parachutist always falling downwards even though the acceleration is upwards when he opens the parachute and when he reaches constant velocity
When you had final igcse exam in 6 hours
Good explanation
This came out on my birthday
Awesome videos! Thank you so much ;-)
Why does a object automatically gain 10 m/s square when falls ?
Gravity my dear
But how will the man keep falling when there is no resultant force?
No resultant force means you don't *_accelerate;_* it doesn't mean you don't move. You are still MOVING downward - you just stop getting faster. You have reached the velocity at which you will stay at - AKA terminal velocity.
@@willoughbykrenzteinburg ooh ok thank you so much for explainin it so well :)
Hi sir, i don’t understand why the terminal velocity would be lower with the parachute
Due to air resistance. Higher area with the parachute, more particles impeding you to accelerate, or decelerating you if you had a higher terminal velocity.
Drag is a complex thing - there are many factors that go into it. Two of those factors are something known as the drag coefficient and surface area. The higher the coefficient, the higher the drag. The higher the surface area, the higher the drag. When you open a parachute, you increase both of these greatly - which greatly increases the force of drag. The other factor that affects drag is speed through the air - the faster the speed, the higher the force of drag.
Terminal velocity is reached when the upward force of drag is equal to gravity, so before you open your parachute, you get faster and faster and drag gets higher and higher. Gravity stays the same and eventually the drag reaches the same as gravity and you stop accelerating. Then you open the parachute and suddenly drag is WAY higher than gravity, so you have to slow down for the drag to come back down to meet gravity and reach this new - lower - terminal velocity.
How do you make these videos ? They’re awesome !
Please help How can I solve terminal velocity without flow regime
Will the parachutist be in terminal velocity until he reaches the ground?
Until he opens the parachute.
Can you please upload a video of "free fall"please? I dont understand it and you haven't uploaded it yet,just suggestion
So so so helpful and easy to understand THANKYOU !!
Glad we could help Saoujath!
When you have a end of year exams in just 1.5 hrs😢 we allways study at the 11th hour the best time to study compared to studying the whole cemister😂😂
nice vid thank you!!
🙂
this video is absoltely unbelievable youve outdone yourself on this my friend you took 5 minutes to biuld up the image of the concept just so we can fully understand what. a . video. weel done amadeus, well done
but wouldnt the weight increase as velocity increases, since acceleration also is increasing?
will the speed of the object increase once its terminal velocity is reached?
No it wont
No - that's why they call it *_terminal_* velocity.
Velocity is just speed over a given time, so technically they are the same thing. So once it’s reached it’s terminal velocity, it’s technically reached a constant speed.
@@ameliesymmons Are you trying to say that velocity is displacement over time lol
really greatful. thanx man!
I'm here because of a golf ball.what am I doing in life
Thank you so much
32 minutes left for exam, seven 7min videos left.
0:54 well technically the person can be eating food while falling down
lmao
thanks 👍
6:42
When will maths come on the platform
thank youu
wait, does that mean in a vacuum, we will accelerate infinitely till 99,99999% and so on light speed? assuming you would somehow have infinite space to fall? Im not an expert so pls don't blame me if that's a stupid question
Well , that can only happen near a black hole where gravity would be monstrous enough to pull you in at light speed , other than that if you are falling in a vacuum on a planet , no matter how far you are you will fall at a constant acceleration depending on the planets or celestial body now if there is infinite displacement to fall through with constant gravitational acceleration, then you can say that you'll surpass the velocity of light (assuming you dont get affected by either the time or speed ) , it'll take a rounded off year to reach that velocity with earth's gravitational constant and take about approximately 4.5 quadrillion metres to fall through.
As in a vacuum with no celestial body , you wouldn't move anywhere since you're not affect by a force.
Class of 2021 ;)
tysm
Got my test in an hour 😂😂😂😂
Thx a lot
Bestt
Here again for revision
When u got OL IGCSE Edexcel examination in 4 hrs
Thank y ❤❤❤
Cheers mare
16th of june final science exam yayy
GOAT
Helped immensely, thanks.
You're welcome!
Your welcome
Cognito your are bestest.