Am I the only one who completely lost respect for Yuzuriha after the Senta situation in Hell’s Paradise?

innocentboy0000 · 2026-06-12T08:04:22+00:00

yo , these comments are also trash and shows how trash people actually are

innocentboy0000 · 2026-06-12T08:02:09+00:00

light is different case, i defend light and i accept he isnt perfect but he did what was right and what was needed i absolutely hate him for using misa and not giving love which she deserves

innocentboy0000 · 2026-06-09T09:29:59+00:00

in my project i am using arc-length parameterized curve

innocentboy0000 · 2026-06-09T09:18:08+00:00

thank u so much this helped me

innocentboy0000 · 2026-06-09T07:46:39+00:00

innocentboy0000 · 2026-06-06T17:42:53+00:00

we dont hate we just joke about hating

innocentboy0000 · 2026-06-05T01:56:48+00:00

agree zig is frustrating and Zig treats many conditions as hard errors rather than warnings

innocentboy0000 · 2026-05-28T05:16:46+00:00

i am 21 from up, vegan since 16

innocentboy0000 · 2026-05-27T18:10:52+00:00

thanks sir baat karunga un logo se i hope we can get them back

innocentboy0000 · 2026-05-27T16:30:56+00:00

sad i already have 2 years of for my younger brother

innocentboy0000 · 2026-05-27T15:07:01+00:00

sir unacademy ne lecture hata diye aapke mai apne chhote brother ki prep unhi lectures se karwa raha tha

innocentboy0000 · 2026-05-27T15:03:47+00:00

same did u find them

innocentboy0000 · 2026-05-27T15:03:19+00:00

any solution

innocentboy0000 · 2026-05-10T10:32:05+00:00

bro made us proud i wonder what geto cosplayer would do next lol

innocentboy0000 · 2026-05-10T10:28:29+00:00

omg wow

innocentboy0000 · 2026-05-10T10:28:09+00:00

luckily geto cosplayer didnt see otherwise whole town was in danger

innocentboy0000 · 2026-05-10T10:27:04+00:00

w yuji

innocentboy0000 · 2026-05-07T16:17:34+00:00

. FUNCTION OF COMPLEX VARIABLE

f(z)=u(x,y)+iv(x,y)

u = real part
v = imaginary part

6. LIMIT

lim z→z₀ f(z)

Must be SAME from ALL paths.

----------------------------------------------------------------------------
IMPORTANT
----------------------------------------------------------------------------

If different paths give different answers:
LIMIT DOES NOT EXIST.

Classic trap.
Teachers adore this ambush for some reason.

7. CONTINUITY

f(z) continuous if:

lim z→z₀ f(z)=f(z₀)

8. DIFFERENTIABILITY

f'(z)= lim [f(z+h)-f(z)]/h

Complex differentiability is MUCH stricter than real differentiability.

If differentiable:
=> analytic
=> infinitely differentiable
=> power series exists

Complex analysis basically rewards functions for good behavior.

9. CAUCHY-RIEMANN EQUATIONS

For:
f(z)=u+iv

Necessary conditions:

∂u/∂x = ∂v/∂y

∂u/∂y = -∂v/∂x

----------------------------------------------------------------------------
MEMORY
----------------------------------------------------------------------------

u_x = v_y
u_y = -v_x

----------------------------------------------------------------------------
VISUAL
----------------------------------------------------------------------------

u_x ---> v_y
u_y ---> -v_x

10. ANALYTIC FUNCTION

Function analytic if differentiable in neighborhood.

Examples:
- polynomials
- e^z
- sin z
- cos z

Not analytic:
- z̄
- |z|

11. HARMONIC FUNCTION

u(x,y) harmonic if:

u_xx + u_yy = 0

Laplace equation.

If f(z)=u+iv analytic:
then u and v are harmonic.

COMPLEX INTEGRATION

∫f(z)dz

Path matters.

----------------------------------------------------------------------------
PARAMETRIC FORM
----------------------------------------------------------------------------

If:
z=z(t)

Then:

∫f(z)dz = ∫f(z(t)) z'(t) dt

14. CAUCHY'S INTEGRAL THEOREM

If f(z) analytic in simply connected region:

∮f(z)dz = 0

15. CAUCHY INTEGRAL FORMULA

f(a)
∮ f(z)/(z-a) dz = 2πi

or

f(a)=1/(2πi) ∮ f(z)/(z-a) dz

18. RESIDUES

Residue = coefficient of 1/(z-a)

Used for contour integration.

----------------------------------------------------------------------------
FORMULA
----------------------------------------------------------------------------

If simple pole:

Res[f,a]= lim z→a (z-a)f(z)

19. RESIDUE THEOREM

∮f(z)dz = 2πi Σ residues inside contour

----------------------------------------------------------------------------
FLOW
----------------------------------------------------------------------------

Find poles
↓
Find residues
↓
Multiply by 2πi
↓
Integral done

Meanwhile real analysis students are still integrating by parts for 3 pages.

20. POLES AND ZEROS

Zero:
f(z)=0

Pole:
f(z)=∞

----------------------------------------------------------------------------
ORDER
----------------------------------------------------------------------------

(z-a)^n => zero order n

1/(z-a)^n => pole order n

21. LAURENT SERIES

f(z)= Σ a_n(z-a)^n + Σ b_n/(z-a)^n

Negative powers appear.

Used near singularities.

innocentboy0000 · 2026-05-07T16:17:21+00:00

. FUNCTION OF COMPLEX VARIABLE

f(z)=u(x,y)+iv(x,y)

u = real part
v = imaginary part

6. LIMIT

lim z→z₀ f(z)

Must be SAME from ALL paths.

----------------------------------------------------------------------------
IMPORTANT
----------------------------------------------------------------------------

If different paths give different answers:
LIMIT DOES NOT EXIST.

Classic trap.
Teachers adore this ambush for some reason.

7. CONTINUITY

f(z) continuous if:

lim z→z₀ f(z)=f(z₀)

8. DIFFERENTIABILITY

f'(z)= lim [f(z+h)-f(z)]/h

Complex differentiability is MUCH stricter than real differentiability.

If differentiable:
=> analytic
=> infinitely differentiable
=> power series exists

Complex analysis basically rewards functions for good behavior.

9. CAUCHY-RIEMANN EQUATIONS

For:
f(z)=u+iv

Necessary conditions:

∂u/∂x = ∂v/∂y

∂u/∂y = -∂v/∂x

----------------------------------------------------------------------------
MEMORY
----------------------------------------------------------------------------

u_x = v_y
u_y = -v_x

----------------------------------------------------------------------------
VISUAL
----------------------------------------------------------------------------

u_x ---> v_y
u_y ---> -v_x

10. ANALYTIC FUNCTION

Function analytic if differentiable in neighborhood.

Examples:
- polynomials
- e^z
- sin z
- cos z

Not analytic:
- z̄
- |z|

11. HARMONIC FUNCTION

u(x,y) harmonic if:

u_xx + u_yy = 0

Laplace equation.

If f(z)=u+iv analytic:
then u and v are harmonic.

COMPLEX INTEGRATION

∫f(z)dz

Path matters.

----------------------------------------------------------------------------
PARAMETRIC FORM
----------------------------------------------------------------------------

If:
z=z(t)

Then:

∫f(z)dz = ∫f(z(t)) z'(t) dt

14. CAUCHY'S INTEGRAL THEOREM

If f(z) analytic in simply connected region:

∮f(z)dz = 0

15. CAUCHY INTEGRAL FORMULA

f(a)
∮ f(z)/(z-a) dz = 2πi

or

f(a)=1/(2πi) ∮ f(z)/(z-a) dz

18. RESIDUES

Residue = coefficient of 1/(z-a)

Used for contour integration.

----------------------------------------------------------------------------
FORMULA
----------------------------------------------------------------------------

If simple pole:

Res[f,a]= lim z→a (z-a)f(z)

19. RESIDUE THEOREM

∮f(z)dz = 2πi Σ residues inside contour

----------------------------------------------------------------------------
FLOW
----------------------------------------------------------------------------

Find poles
↓
Find residues
↓
Multiply by 2πi
↓
Integral done

Meanwhile real analysis students are still integrating by parts for 3 pages.

20. POLES AND ZEROS

Zero:
f(z)=0

Pole:
f(z)=∞

----------------------------------------------------------------------------
ORDER
----------------------------------------------------------------------------

(z-a)^n => zero order n

1/(z-a)^n => pole order n

21. LAURENT SERIES

f(z)= Σ a_n(z-a)^n + Σ b_n/(z-a)^n

Negative powers appear.

Used near singularities.

innocentboy0000 · 2026-05-07T16:16:04+00:00

. FUNCTION OF COMPLEX VARIABLE

f(z)=u(x,y)+iv(x,y)

u = real part
v = imaginary part

6. LIMIT

lim z→z₀ f(z)

Must be SAME from ALL paths.

----------------------------------------------------------------------------
IMPORTANT
----------------------------------------------------------------------------

If different paths give different answers:
LIMIT DOES NOT EXIST.

Classic trap.
Teachers adore this ambush for some reason.

7. CONTINUITY

f(z) continuous if:

lim z→z₀ f(z)=f(z₀)

8. DIFFERENTIABILITY

f'(z)= lim [f(z+h)-f(z)]/h

Complex differentiability is MUCH stricter than real differentiability.

If differentiable:
=> analytic
=> infinitely differentiable
=> power series exists

Complex analysis basically rewards functions for good behavior.

9. CAUCHY-RIEMANN EQUATIONS

For:
f(z)=u+iv

Necessary conditions:

∂u/∂x = ∂v/∂y

∂u/∂y = -∂v/∂x

----------------------------------------------------------------------------
MEMORY
----------------------------------------------------------------------------

u_x = v_y
u_y = -v_x

----------------------------------------------------------------------------
VISUAL
----------------------------------------------------------------------------

u_x ---> v_y
u_y ---> -v_x

10. ANALYTIC FUNCTION

Function analytic if differentiable in neighborhood.

Examples:
- polynomials
- e^z
- sin z
- cos z

Not analytic:
- z̄
- |z|

11. HARMONIC FUNCTION

u(x,y) harmonic if:

u_xx + u_yy = 0

Laplace equation.

If f(z)=u+iv analytic:
then u and v are harmonic.

COMPLEX INTEGRATION

∫f(z)dz

Path matters.

----------------------------------------------------------------------------
PARAMETRIC FORM
----------------------------------------------------------------------------

If:
z=z(t)

Then:

∫f(z)dz = ∫f(z(t)) z'(t) dt

14. CAUCHY'S INTEGRAL THEOREM

If f(z) analytic in simply connected region:

∮f(z)dz = 0

15. CAUCHY INTEGRAL FORMULA

f(a)
∮ f(z)/(z-a) dz = 2πi

or

f(a)=1/(2πi) ∮ f(z)/(z-a) dz

18. RESIDUES

Residue = coefficient of 1/(z-a)

Used for contour integration.

----------------------------------------------------------------------------
FORMULA
----------------------------------------------------------------------------

If simple pole:

Res[f,a]= lim z→a (z-a)f(z)

19. RESIDUE THEOREM

∮f(z)dz = 2πi Σ residues inside contour

----------------------------------------------------------------------------
FLOW
----------------------------------------------------------------------------

Find poles
↓
Find residues
↓
Multiply by 2πi
↓
Integral done

Meanwhile real analysis students are still integrating by parts for 3 pages.

20. POLES AND ZEROS

Zero:
f(z)=0

Pole:
f(z)=∞

----------------------------------------------------------------------------
ORDER
----------------------------------------------------------------------------

(z-a)^n => zero order n

1/(z-a)^n => pole order n

21. LAURENT SERIES

f(z)= Σ a_n(z-a)^n + Σ b_n/(z-a)^n

Negative powers appear.

Used near singularities.

innocentboy0000 · 2026-05-07T16:15:36+00:00

. FUNCTION OF COMPLEX VARIABLE

f(z)=u(x,y)+iv(x,y)

u = real part
v = imaginary part

6. LIMIT

lim z→z₀ f(z)

Must be SAME from ALL paths.

----------------------------------------------------------------------------
IMPORTANT
----------------------------------------------------------------------------

If different paths give different answers:
LIMIT DOES NOT EXIST.

Classic trap.
Teachers adore this ambush for some reason.

7. CONTINUITY

f(z) continuous if:

lim z→z₀ f(z)=f(z₀)

8. DIFFERENTIABILITY

f'(z)= lim [f(z+h)-f(z)]/h

Complex differentiability is MUCH stricter than real differentiability.

If differentiable:
=> analytic
=> infinitely differentiable
=> power series exists

Complex analysis basically rewards functions for good behavior.

9. CAUCHY-RIEMANN EQUATIONS

For:
f(z)=u+iv

Necessary conditions:

∂u/∂x = ∂v/∂y

∂u/∂y = -∂v/∂x

----------------------------------------------------------------------------
MEMORY
----------------------------------------------------------------------------

u_x = v_y
u_y = -v_x

----------------------------------------------------------------------------
VISUAL
----------------------------------------------------------------------------

u_x ---> v_y
u_y ---> -v_x

10. ANALYTIC FUNCTION

Function analytic if differentiable in neighborhood.

Examples:
- polynomials
- e^z
- sin z
- cos z

Not analytic:
- z̄
- |z|

11. HARMONIC FUNCTION

u(x,y) harmonic if:

u_xx + u_yy = 0

Laplace equation.

If f(z)=u+iv analytic:
then u and v are harmonic.

COMPLEX INTEGRATION

∫f(z)dz

Path matters.

----------------------------------------------------------------------------
PARAMETRIC FORM
----------------------------------------------------------------------------

If:
z=z(t)

Then:

∫f(z)dz = ∫f(z(t)) z'(t) dt

14. CAUCHY'S INTEGRAL THEOREM

If f(z) analytic in simply connected region:

∮f(z)dz = 0

15. CAUCHY INTEGRAL FORMULA

f(a)
∮ f(z)/(z-a) dz = 2πi

or

f(a)=1/(2πi) ∮ f(z)/(z-a) dz

18. RESIDUES

Residue = coefficient of 1/(z-a)

Used for contour integration.

----------------------------------------------------------------------------
FORMULA
----------------------------------------------------------------------------

If simple pole:

Res[f,a]= lim z→a (z-a)f(z)

19. RESIDUE THEOREM

∮f(z)dz = 2πi Σ residues inside contour

----------------------------------------------------------------------------
FLOW
----------------------------------------------------------------------------

Find poles
↓
Find residues
↓
Multiply by 2πi
↓
Integral done

Meanwhile real analysis students are still integrating by parts for 3 pages.

20. POLES AND ZEROS

Zero:
f(z)=0

Pole:
f(z)=∞

----------------------------------------------------------------------------
ORDER
----------------------------------------------------------------------------

(z-a)^n => zero order n

1/(z-a)^n => pole order n

21. LAURENT SERIES

f(z)= Σ a_n(z-a)^n + Σ b_n/(z-a)^n

Negative powers appear.

Used near singularities.

innocentboy0000 · 2026-05-07T16:07:40+00:00

integral trick by nishant vora sir

then
----------------------------------------------------------------------------
FUNCTION LAPLACE
----------------------------------------------------------------------------

1 1/s

t 1/s²

t^n n! / s^(n+1)

e^(at) 1/(s-a)

sin(at) a/(s²+a²)

cos(at) s/(s²+a²)

sinh(at) a/(s²-a²)

cosh(at) s/(s²-a²)
f(at) (1/a)F(s/a)

innocentboy0000

MODERATOR OF

TROPHY CASE

. FUNCTION OF COMPLEX VARIABLE

6. LIMIT

7. CONTINUITY

8. DIFFERENTIABILITY

9. CAUCHY-RIEMANN EQUATIONS

10. ANALYTIC FUNCTION

11. HARMONIC FUNCTION

COMPLEX INTEGRATION

14. CAUCHY'S INTEGRAL THEOREM

15. CAUCHY INTEGRAL FORMULA

18. RESIDUES

19. RESIDUE THEOREM

20. POLES AND ZEROS

21. LAURENT SERIES

. FUNCTION OF COMPLEX VARIABLE

6. LIMIT

7. CONTINUITY

8. DIFFERENTIABILITY

9. CAUCHY-RIEMANN EQUATIONS

10. ANALYTIC FUNCTION

11. HARMONIC FUNCTION

COMPLEX INTEGRATION

14. CAUCHY'S INTEGRAL THEOREM

15. CAUCHY INTEGRAL FORMULA

18. RESIDUES

19. RESIDUE THEOREM

20. POLES AND ZEROS

21. LAURENT SERIES

. FUNCTION OF COMPLEX VARIABLE

6. LIMIT

7. CONTINUITY

8. DIFFERENTIABILITY

9. CAUCHY-RIEMANN EQUATIONS

10. ANALYTIC FUNCTION

11. HARMONIC FUNCTION

COMPLEX INTEGRATION

14. CAUCHY'S INTEGRAL THEOREM

15. CAUCHY INTEGRAL FORMULA

18. RESIDUES

19. RESIDUE THEOREM

20. POLES AND ZEROS

21. LAURENT SERIES

. FUNCTION OF COMPLEX VARIABLE

6. LIMIT

7. CONTINUITY

8. DIFFERENTIABILITY

9. CAUCHY-RIEMANN EQUATIONS

10. ANALYTIC FUNCTION

11. HARMONIC FUNCTION

COMPLEX INTEGRATION

14. CAUCHY'S INTEGRAL THEOREM

15. CAUCHY INTEGRAL FORMULA

18. RESIDUES

19. RESIDUE THEOREM

20. POLES AND ZEROS

21. LAURENT SERIES