quick question if anyone can help: For both the examples the equation was integrated first, but I though the point of integrating was to go from the differentiated for to a "y='s" form and the equation of both graphs are written as "y=". So why did he integrate? (sorry if this is a stupid question)
at 11:28 wouldn't it be better to just write 2 on top, since you would get the same answer but you wouldnt need to flip the signs. I feel like that's the correct way to do it
I am relearning Calculus for my Doctorate. All the other videos go way too far into the theory (which I already know). This was perfect to just brush up on the process.
We don't actually know but we don't have to know it in these cases because we are subtracting one equation from the same equation, just with different values being subbed in (meaning they will cancel out, C-C=0 in all cases for example).
there the same thing as normal brackets they just show an entire equation as the normal brackets show a part of the brackets, but in a calculator it will do
No, the answer is right. If you think of it like the area of a trapezium [ (a+b) / 2 x h ] then you get: a = 1^2 + 2 = 3 b = 3^2 + 2 = 11 h = 3-1 = 2 (Remember we are only working out the area between x=3 and x=1 not x=3 and x=0) (3+11) / 2 x 2 = 14 units^2 The trapezium of course is an over estimate due to the rising nature of the curve so the answer of 12.66 is correct.
I'm very confused abt this one aswell cause using the calculator button to put it in gives a different answer to me than when I substitute it in manually
You’ve made this so easy to understand, my coursework and I thank you
U have coursework?
Since when is there coursework in maths, unless there's some btec/vocational maths course that the UK offers
I got a test this morning😂
So? Hows results day?
I got an exams tomorrow 😂😭
maryam javed same 😭😭 pure maths 1?
@@nkosinathititus6285 We need to do this in Add Maths GCSE 😭😭
So,,how did it go?
Great video! It was so fun to learn this, I have always wanted to know how to do it!
Lol either he's a great teacher or people are making this topic seem a million times harder than it actually is. Probably both.
probably the former. those examples in the video is extremely simple once you know how to do definite integration.
@@edwardwhite8253
Thank you so much for this lesson
This was seriously so much help, thank you!
..great job mate. !!...very much appreciated..definitely made it a LOT easier ..finally got it. very clearly demonstrated...thank U mate !!
Great video, easy to understand and follow along.
thanks for the well explained video...... i really enjoyed every bit of the explanation, and i think i have well understood
Thank you so much! I have an exam in 10 days and I'm watching your videos and solving past papers of the relevant topics. You're an amazing teacher
u r now in 12th???
@@kathijasharmila1966 no I gave my mid term exams
@@HassanHussain-dg4se pardonnnn sorry
Thank you so much. You really did make me understand the concept. PLease dont stop posting videos!
Hye would you taught me
@@MuhammadTalha-oe5vq sure, I can help, kavipriya.03 (my insta id)
Brilliant thanks
So clear
Awesome video! thank you
This is very helpful thank you
Nice video,,thanks
Not all heroes wear capes
No words can thank you at the moment !!!
Thankyou veru muchhh
I’ve got a final exam tomorrow 😂
very helpful thanku
nyc thanx
best of the bests
Doing this so I can delete from my downloads. Still helpful 👍. Wish I watched it earlier
Thanks man
ThANK YOUUUU
Thank youuuuu
Very helpful. Thank you
quick question if anyone can help: For both the examples the equation was integrated first, but I though the point of integrating was to go from the differentiated for to a "y='s" form and the equation of both graphs are written as "y=". So why did he integrate? (sorry if this is a stupid question)
Integration is also used to find the area under a curve. That is what it is being used for in this video.
You can use integration for finding the original function f(x) and also for finding the area under a curve....
12:54 the green section is above the curve so how does that work, someone please explain this to me
same bruh 😔
@@damnson1356 i understand now, its cos by integrating u get area between curve and x axis
@@misan2002 ohh thanks
@@damnson1356 no problem
at 11:28 wouldn't it be better to just write 2 on top, since you would get the same answer but you wouldnt need to flip the signs. I feel like that's the correct way to do it
You saved me
Cheers salman
I crack all record of all highest mark in iit. It will be in 2022
This helps so much
I am relearning Calculus for my Doctorate. All the other videos go way too far into the theory (which I already know). This was perfect to just brush up on the process.
I was learning it for my O levels aka IGCSE
I love you
Thanks bro, u made me understand this so easily
what does dx mean at the end
With respect to x
With respect to x
@@humzaahmad_ exactly
Thank you sir 😊😊😊
I got 97 over 3.
Not 88 over 3.
i got 88/3
What is C in these cases?
'C' is basically the constant after you integrate an equation
The arbitrary constant of integration
We don't actually know but we don't have to know it in these cases because we are subtracting one equation from the same equation, just with different values being subbed in (meaning they will cancel out, C-C=0 in all cases for example).
Yeah but you can’t put squares brackets in a calculator
there the same thing as normal brackets they just show an entire equation as the normal brackets show a part of the brackets, but in a calculator it will do
ShrimpyTruffle yeah I figured that out eventually haha. Thanks
mistake in question one on 7:28 . Should be 9/2 right
2:35 is wrong, if the entire space was filled, so a 3x3 cube, it would have an area of 9 units^2, how does only a fraction of that have 12.66 units^2
No, the answer is right. If you think of it like the area of a trapezium [ (a+b) / 2 x h ] then you get:
a = 1^2 + 2 = 3
b = 3^2 + 2 = 11
h = 3-1 = 2 (Remember we are only working out the area between x=3 and x=1 not x=3 and x=0)
(3+11) / 2 x 2 = 14 units^2
The trapezium of course is an over estimate due to the rising nature of the curve so the answer of 12.66 is correct.
I'm very confused abt this one aswell cause using the calculator button to put it in gives a different answer to me than when I substitute it in manually
sick video, u spelt region wrong lol
I did not know that Bear Grylls could explain maths so smoothly!
got it adhi? now go to sleep and good luck
Ahmad Hassan Al Naimi thanks bro
شفت شروحات كثير بس شرحه بطل ويفهم
Thanks
Sometimes you get to understand a "difficult" concept or process simply by presenting a different approach!