JEE MAINS 2025 𝒏𝒆𝒘 𝒔𝒚𝒍𝒍𝒂𝒃𝒖𝒔 : INTEGRATION ONE SHOT | FULL THEORY + PYQ’s + Tricks | NEHA

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JEE MAINS 2025 𝒏𝒆𝒘 𝒔𝒚𝒍𝒍𝒂𝒃𝒖𝒔 : INTEGRATION ONE SHOT | FULL THEORY + PYQ’s + Tricks | NEHA MAM | NEHA AGRAWAL | MATHEMATICALLY INCLINED | #jee2025 #jee2026 | JEE MAINS 2025 | JEE MAINS 2026 | TOP 100 Questions

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5:35 Integration Introduction
7:35 Standard Integration Formulae
10:09 Properties of Indefinite Integration
24:08 Method of Substitution (Different Cases)
24:54 CASE -1 Integration by Substitution
34:51 CASE -2 Integration by Substitution
38:50 CASE -3 Integration by Substitution
1:11:31 CASE -4 Integration by Substitution
1:15:30 CASE -5 Integration by Substitution
1:20:01 CASE -6 Integration by Trigonometric Substitution
1:44:10 Integration by Parts
1:59:24 Classic Integrals
2:07:20 Evaluation of the Various Forms of Integrals by use of Standard Results
2:07:30 Some More Standard Integration Formulae
2:26:57 Some Special Form of Integrals
2:35:24 Integrals of Rational Functions
2:36:18 Partial Fractions
2:48:35 Some Special Trigonometric Integrals
2:53:13 4 HATKE FORM
2:58:32 Definite Integral Introduction
2:59:04 Evaluation of Definite Integral by Method of Indefinite
3:06:43 Evaluation of Definite Integral by Method of Substitution
3:17:15 Properties of Definite Integral
3:47:28 Reduction formulae
3:55:35 Leibnitz's Rule
3:58:57 Integration of Piecewise Continuous Function

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INTEGRATION / INTEGRAL CALCULUS ( JEE MAINS 2025/2026 SYLLABUS )
Integral as an anti-derivative, Fundamental integral involving algebraic, trigonometric, exponential, and logarithmic functions. Integrations by substitution, by parts, and by partial functions. Integration using trigonometric identities. Evaluation of simple integrals of the type . The fundamental theorem of calculus, properties of definite integrals. Evaluation of definite integrals, determining areas of the regions bounded by simple curves in standard form.

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7:43 8:55 9:12 standard formula for integration 🚀
27:51 re❄
49:55 re⚡
1:00:10 cham cham trick🔥
1:03:11 good ques🏜
1:13:32 easy one(jab kuch n smjh aaye toh cosx se multiply and divide😅)
1:21:00 standard trigo substitution☄
1:21:25 tantheta ko x/a krna mat bhulo🛎
1:29:55 the lengthy one😢
1:34:23 once more🥶
1:45:17 ibp❤
1:59:43 classic🚥
2:06:20 _/`e^ax cosbx dx type 🌟🌟🌟
2:08:59 2:09:32 standard integral🧿
2:33:14 quad/biquad form💀
2:37:48 partial fraction☄
2:48:19 c aa rha(recheck!)🙄
2:49:01 2:49:20 special trigo integrals🔥
2:54:11 special integrals🚀
3:08:52 hint ⚠️
3:13:42 - ko hatane ke liye limit palatna padega⚡
3:14:21 3:38:14 good question 🌟
3:20:20 3:20:32 3:41:56 Prop. Of definite integration☄
3:32:17 trick🌟🌟🌟🌟🌟
3:46:26 periodicity🚀
3:48:40 3:51:20 reduction formula🧿
3:56:08 leibnitz rule🤍
4:00:05 try on ur own(tip:gif ki basic property in use)😮

Done❤

iamA

21:50 take root x common ⭐
23:45 isme thodha doubt tha
26:28 likhne ka tarika
28:03 gq 🌟🌟🌟🌟
44:58 ⭐⭐
47:34 🌟🌟🌟 substitution
49:01 yha mistake hui
51:07 hacked pyq ❤🌟 ÷by x² (to be revised);)
57:23 🌟🌟🌟 krne ka tRika And trick ( II. II. II. ) 1:02:16 trick - differentiation wrt x
1:04:06 🌟🌟🌟 1:08:09
1:14:47 isko tan me create krne se baat banegi⭐
1:18:30 glti 😢🌟🌟🌟 1:19:19 second method diiff
1:27:31 🌟🌟🌟🌟❤

Astroflashofc

1:44:10 Integration by parts
3:04:30 Definite integration

KKP

Integration Introduction: 5:35
Standard Integration Formulae: 7:35
Properties of Indefinite Integration: 10:09
Method of Substitution(Different Cases): 24:08
CASE -1: Integration by Substitution: 24:54
CASE -2: Integration by Substitution: 34:51
CASE -3: Integration by Substitution: 38:50
CASE -4: Integration by Substitution: 1:11:31
CASE -5: Integration by Substitution: 1:15:30
CASE -6: Integration by Trigonometric Substitution: 1:20:01
Integration by Parts: 1:44:10
Classic Integrals: 1:59:24
Evaluation of the Various Forms of Integrals by use of Standard Results: 2:07:20
Some More Standard Integration Formulae: 2:07:30
Some Special Form of Integrals: 2:26:57
Integrals of Rational Functions: 2:35:24
Partial Fractions: 2:36:18
Some Special Trigonometric Integrals: 2:48:35
4 HATKE FORM: 2:53:13
Definite Integral Introduction: 2:58:32
Evaluation of Definite Integral by Method of Indefinite: 2:59:04
Evaluation of Definite Integral by Method of Substitution: 3:06:43
Properties of Definite Integral: 3:17:15
Reduction formulae: 3:47:28
Leibnitz's Rule: 3:55:35
Integration of Piecewise Continuous Function: 3:58:57

Villainop

1:39:40 recall.
2:41:13 special form.
2:54:35 trigo formats.
3:18:26 ii mondai dayo.
3:24:59 properties.
3:48:16 periodic properties!
(For personal use)

samarkodwani

5:35 Integration Introduction
7:35 Standard Integration Formulae
10:09 Properties of Indefinite Integration
24:08 Method of Substitution (Different Cases)
24:54 CASE -1 Integration by Substitution
34:51 CASE -2 Integration by Substitution
38:50 CASE -3 Integration by Substitution
1:11:31 CASE -4 Integration by Substitution
1:15:30 CASE -5 Integration by Substitution
1:20:01 CASE -6 Integration by Trigonometric Substitution
1:44:10 Integration by Parts
1:59:24 Classic Integrals
2:07:20 Evaluation of the Various Forms of Integrals by use of Standard Results
2:07:30 Some More Standard Integration Formulae
2:26:57 Some Special Form of Integrals
2:35:24 Integrals of Rational Functions
2:36:18 Partial Fractions
2:48:35 Some Special Trigonometric Integrals
2:53:13 4 HATKE FORM
2:58:32 Definite Integral Introduction
2:59:04 Evaluation of Definite Integral by Method of Indefinite
3:06:43 Evaluation of Definite Integral by Method of Substitution
3:17:15 Properties of Definite Integral
3:47:28 Reduction formulae
3:55:35 Leibnitz's Rule
3:58:57 Integration of Piecewise Continuous Function

Avantika_v

Neha Ma'am ka 2nd talent after teaching JEE maths - relating the questions with Bollywood songs! (very rare one tbh)

gunnu-drrk

27.39 min answer is ln[1+logx]+c
38.43 min answer is (sin x )^5+c

Pk_pakoda

29:49 29:51 29:52 29:53 29:53 29:53 29:54 29:54 29:54 29:55 29:55 29:55 29:56 29:56 29:56 29:57 29:57 29:57 29:58 29:58

DInteriorValiant

Own review:
27:51 Solve again, wrong splitting of factors.
51:22 Understand different approach is important at times.
1:00:02 Long method + Short method Revise
1:23:35 Remember triangle method before using sin2x = 2tan x / (1+tan^2 x)

bitsat

My akash Coching maths faculty can't teach you mammy 60 percent my maths is correctly done by Neha mam Such a Big contribution thanks 🙏🙏

pulkitgoyal

Integration 2.0 done .love the session mam ❤❤. You don't know how much helpful this sessions are for me . The only and only single teacher in YouTube on whom I can trust blindly is you ❤❤❤❤

IshikaSarayan

Ma'am watching this for JEE mains 2025 before my batches start ❤️🤌

prajwalpawar

Are you fans of sakshi mam or neha mam😊

SambasivaraoKokkiligadda-prvf

scroll away

31:43⭐⭐⭐
44:14 ⭐⭐
53:40 methodical
55:50⭐⭐
01:07:17 confusing qn⭐⭐
01:27:29 very typical

scattered_alpha_particle

Madam,
At time 01:41, the question is very good. It can be solved by two methods, one by differentition and other by integration. Both methods are equally good and should be taught to students.
By differentiation, we result in a quadratic equation.
(x^2)*(a*root 3 -4b) + x *(a*root3- 4b) + a * root 3 +2 b -2 =0
This is a quadratic identity which must be true for all values of x. This is possible only when all coefficients of quadratic equation are zero. This gives us values of a and b.

ckjain_maths

Revisions stamps
17:13
26:21
40:38
51:46
1:03:50

kundalaman

Revision stamps for myself
30:00
44:08
51:30

bookedbycaffeine

100 minute ka daily dose ❌ 300 minute ka daily dose ✔

GARUD-mf

Properties of definite integration 3:18:15

priyankachoudhary

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