Thank you so much this honestly has helped me so much
@Md-sl2sy13 күн бұрын
Holy SHIP!! I HAVE AM EXAM TODAY AND THIS WILL HELP ME OUT SO MUCH
@tonyname1277Ай бұрын
JOKE
@AaVictor2 ай бұрын
Taiwanese here 🙋
@theagentcookie84472 ай бұрын
8:48 what is bro waffling about☠
@RAYAMUSTAFA2 ай бұрын
thank you very much kind soul
@johnbenedictvaldiviezocast39552 ай бұрын
Best teacher of all time,thank you so much❤
@Vezteky2 ай бұрын
ty, test tomorrow n the quiz is literally 2 questions, trig with multiple angles unrestricted and restricted.
@shaikhmujahed26523 ай бұрын
11th class student India
@thecanadian82063 ай бұрын
thankyou so much sir
@JustineCeniza-bw5ux3 ай бұрын
thank you boss
@MisbahKhan-kz5ti3 ай бұрын
good works sir
@anonymouslyforgotten55923 ай бұрын
YOU CAN USE THIS WITH DERIVATIVES! Though its a bit difficult to see, there are some noticeable patterns. Once i noticed these, I haven’t had trouble with these derivatives at all! You’re not gonna understand without writing it out. Its a bit complicated at first glance, but simple when you understand it. I just drew the hexagon (without the edges, only the lines in between. It looks like a x with a horizontal line) 1. Search up the trig derivative online. Write them down across a page. 2.Then under each function, draw the hexagon thing 3. trace a line from the trig to derivative using a different color pen. Do you notice the patterns? Take a moment to study it for yourself. Anyway, hopefully you understand this: I found these patterns: Obtuse angles create fractional derivatives, Accute angles create singular or multiplication derivatives Following the inner lines left into the center and out, will give negative derivatives. Following the inner lines right into the center and out, will give positive derivatives. Csc and sec repeat themselves in their derivatives. The derivative angles on the left are opposite of those on the right. Ex: following the inner lines, draw a line from tan to it’s derivative 1/cosx. The line went right in a obtuse angle, so it’s solution is a positive fractional derivative. Ex2: following the inner lines, draw a line from cot to it’s derivative -1/sinx The line went left in a obtuse angle, so it’s solution is a negative fractional derivative. The angle is opposite to tangent. Ex3: following the inner lines, draw a line from sin to it’s derivative: cosx. The line went right in a acute angle so the solution is a positive singular or multiplication derivative. Ex4: following the inner lines, draw a line from cosx to its derivative -sinx The line went left in a acute angle, so the solution is a singular or multiplication derivative. The angle is opposite to sinx. Ex5: draw a line from secx to to tanx (not the derivative) The line goes right first, and is a acute angle, so the derivative is positive multiplication. Since it is sec, it’s repeated. So, the derivative is Secxtanx. Ex6: draw a line from csc to cot (not it’s derivative) The line goes left first so the derivative is negative multiplication. Since its csc, it is is repeated. So the derivative is cscxcotx. Haha, I did not explain that very well, so I encourage you to try figuring this out yourself! The pattern could probably be simplified a bit. For instance, it’s better to say the top accute angles are singular while the bottom accute angles multiply something by themselves. But whatevs! I wish you the best of luck!
@theblueprint2001Ай бұрын
appreciate it brother/sister. i don’t need this for my current test gut its good to know 👍
@Fahad-yz1ci4 ай бұрын
oh man love your way! from Pakistan.
@MartinWu-sk6jd4 ай бұрын
thanks
@tinaetoll2914 ай бұрын
FINALLY! The correlations are clear!!! Thank you :)
@thatoneguywhosaystheearthi3325 ай бұрын
If yall can't remember this then the future of trig is grim 💀
@narcosu20882 ай бұрын
Yeah Im not looking forward to this future 👍
@user-zw7hp2jc9c5 ай бұрын
great
@dividendkng6 ай бұрын
Greatest Math Teacher of all time
@bougatayaabdoullah6 ай бұрын
This is a game changer
@Loots17 ай бұрын
i fkn love you
@faisalmohamed45957 ай бұрын
4:33 thats the absolute max and minimum are the other ones the local max and min ?,!
@kathlynarts7 ай бұрын
Thank you! ❤
@destinedhajra41367 ай бұрын
This is the best video ❤❤❤
@mohammadzarifhaqueshawal33797 ай бұрын
Can you make one for y= sec inverse secx
@smft91477 ай бұрын
in india we learned this in 5th grade
@unknownuser67573 ай бұрын
No way
@autovozo572515 күн бұрын
No we didnt
@ebarguz7 ай бұрын
Muchas gracias, excelente video. Me sirvió de mucho.
@user-fu1jb6xq6q8 ай бұрын
Thank you, I love you.
@deloohabibi98008 ай бұрын
😄😅😍😍
@Saurabhi_58 ай бұрын
It is very helpful for me 🤠😁😊😊😊.🇮🇳🇮🇳 From India 🇮🇳🔥🔥🚩
@user-ei1bq4pj6r8 ай бұрын
thanks a lot..
@cosmicpsyops45298 ай бұрын
Long live 🇹🇼.
@Gamechangerr6678 ай бұрын
Bacha liya mereku final exam se pehle 🙏🙏
@bonganimartin27098 ай бұрын
Very useful indeed, thank you very much
@jacksonepperly28049 ай бұрын
i secan't do this anymore
@julienewilkinson37983 ай бұрын
right?? you're hilarious!!😅
@unknownuser67573 ай бұрын
@@julienewilkinson3798That person is funny
@narcosu20882 ай бұрын
IM IN PAIN
@crybaby4111Ай бұрын
Usss
@alphasaffi92309 ай бұрын
Excellent thanks 👍 very much sir
@moncaiobrothersjiujitsu62049 ай бұрын
Oss
@smcheeto9 ай бұрын
yeahhh wooo
@yorgunsavasci45299 ай бұрын
this helped me a lot
@smcheeto9 ай бұрын
yeaaaaa
@moncaiobrothersjiujitsu62049 ай бұрын
Oss
@user-fm2py3qp7d9 ай бұрын
I really appreciate your help. Thank you so much!
@guliyevshahriyar9 ай бұрын
Thank you
@moncaiobrothersjiujitsu62049 ай бұрын
Oss
@MattBriggsTV9 ай бұрын
Woohoo yeah mr. curran!
@surrealistidealist9 ай бұрын
You can remember the cofunction identities by looking horizontally across from left to right and right to left. The Even/Odd identities can be remembered by using the forward slash ("/") symbol to note that Cos & Sec are the only two positives. 😉
@masterraven85967 ай бұрын
Best comment and only 8 likes? We can fix that
@surrealistidealist7 ай бұрын
@@masterraven8596 Thank you, my friend!
@masterraven85967 ай бұрын
@@surrealistidealist No thank you I passed my prep calc mid-term because of this comment.
Пікірлер
To us who are here 1day before exam😢😂😂
To us who are here 1day before exam😢😂😂
You are a life saver sir
Thank you so much this honestly has helped me so much
Holy SHIP!! I HAVE AM EXAM TODAY AND THIS WILL HELP ME OUT SO MUCH
JOKE
Taiwanese here 🙋
8:48 what is bro waffling about☠
thank you very much kind soul
Best teacher of all time,thank you so much❤
ty, test tomorrow n the quiz is literally 2 questions, trig with multiple angles unrestricted and restricted.
11th class student India
thankyou so much sir
thank you boss
good works sir
YOU CAN USE THIS WITH DERIVATIVES! Though its a bit difficult to see, there are some noticeable patterns. Once i noticed these, I haven’t had trouble with these derivatives at all! You’re not gonna understand without writing it out. Its a bit complicated at first glance, but simple when you understand it. I just drew the hexagon (without the edges, only the lines in between. It looks like a x with a horizontal line) 1. Search up the trig derivative online. Write them down across a page. 2.Then under each function, draw the hexagon thing 3. trace a line from the trig to derivative using a different color pen. Do you notice the patterns? Take a moment to study it for yourself. Anyway, hopefully you understand this: I found these patterns: Obtuse angles create fractional derivatives, Accute angles create singular or multiplication derivatives Following the inner lines left into the center and out, will give negative derivatives. Following the inner lines right into the center and out, will give positive derivatives. Csc and sec repeat themselves in their derivatives. The derivative angles on the left are opposite of those on the right. Ex: following the inner lines, draw a line from tan to it’s derivative 1/cosx. The line went right in a obtuse angle, so it’s solution is a positive fractional derivative. Ex2: following the inner lines, draw a line from cot to it’s derivative -1/sinx The line went left in a obtuse angle, so it’s solution is a negative fractional derivative. The angle is opposite to tangent. Ex3: following the inner lines, draw a line from sin to it’s derivative: cosx. The line went right in a acute angle so the solution is a positive singular or multiplication derivative. Ex4: following the inner lines, draw a line from cosx to its derivative -sinx The line went left in a acute angle, so the solution is a singular or multiplication derivative. The angle is opposite to sinx. Ex5: draw a line from secx to to tanx (not the derivative) The line goes right first, and is a acute angle, so the derivative is positive multiplication. Since it is sec, it’s repeated. So, the derivative is Secxtanx. Ex6: draw a line from csc to cot (not it’s derivative) The line goes left first so the derivative is negative multiplication. Since its csc, it is is repeated. So the derivative is cscxcotx. Haha, I did not explain that very well, so I encourage you to try figuring this out yourself! The pattern could probably be simplified a bit. For instance, it’s better to say the top accute angles are singular while the bottom accute angles multiply something by themselves. But whatevs! I wish you the best of luck!
appreciate it brother/sister. i don’t need this for my current test gut its good to know 👍
oh man love your way! from Pakistan.
thanks
FINALLY! The correlations are clear!!! Thank you :)
If yall can't remember this then the future of trig is grim 💀
Yeah Im not looking forward to this future 👍
great
Greatest Math Teacher of all time
This is a game changer
i fkn love you
4:33 thats the absolute max and minimum are the other ones the local max and min ?,!
Thank you! ❤
This is the best video ❤❤❤
Can you make one for y= sec inverse secx
in india we learned this in 5th grade
No way
No we didnt
Muchas gracias, excelente video. Me sirvió de mucho.
Thank you, I love you.
😄😅😍😍
It is very helpful for me 🤠😁😊😊😊.🇮🇳🇮🇳 From India 🇮🇳🔥🔥🚩
thanks a lot..
Long live 🇹🇼.
Bacha liya mereku final exam se pehle 🙏🙏
Very useful indeed, thank you very much
i secan't do this anymore
right?? you're hilarious!!😅
@@julienewilkinson3798That person is funny
IM IN PAIN
Usss
Excellent thanks 👍 very much sir
Oss
yeahhh wooo
this helped me a lot
yeaaaaa
Oss
I really appreciate your help. Thank you so much!
Thank you
Oss
Woohoo yeah mr. curran!
You can remember the cofunction identities by looking horizontally across from left to right and right to left. The Even/Odd identities can be remembered by using the forward slash ("/") symbol to note that Cos & Sec are the only two positives. 😉
Best comment and only 8 likes? We can fix that
@@masterraven8596 Thank you, my friend!
@@surrealistidealist No thank you I passed my prep calc mid-term because of this comment.
Bravo!! Gold.