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Sana	02.07.2020
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Bog'liq
funksional analiz misol va masalalar yechish 1 qism

E
&
!

m
(x) =
min {f(x), g(x)}

!

%
*
f

g

E
&
!

M
(x)=
max {f(x), g(x)}

!

%$
*
f

E

!

h
(x) = [f(x)]

!

'

[x]

x

%%
f
: E → R
!

!

f
3

!

%&
*
f

g

E
&
!

ϕ
: R
2
→ R
"

h
(x) = ϕ(f(x), g(x))

!

%'
f
: E → R
!

!

h
(x) = e
f
(x)

!

%.
h
(x) = cos f(x)

!

f
: E → R

!

!

7`"
37#5

"

f

% /
=
&

f
(x) = u(x)+i v(x)

*
u

v

!

f
: E → C

*

&

f
(x) = u(x) + i v(x)

!

!

%
=
&

f
(x) = e
ix
, x
∈ [−π, π]

!

"

%
f
: [0, 1] → R

y
∈ R
!

N
f
(y)

f
(x) = y

!

N
f
: R → Z
+
"

!

%
0
!

A
&

f
: A → R

!

%
*
f
: E → R

!

g
: E → R

f

E

!

% $
*
f
: [0, 1] → R

g
: [0, 1] → R

% %
*
{f
n
}
!

"

E
&

"

f

-
{x ∈ E : f(x) < c} =
∞
∪
k
=1
∞
∪
n
=1
∞
∩
m>n

x
: f
m
(x) < c −
1
k

.
(6.6)
% &
*
{f
n
}
!

"

x
∈ E

f
(x)

f
!

"

% '
0

{f
n
}

"

!

∞

n
=1
f
n
(x)

!

x
∈ E

!

f
(x) =
∞

n
=1
f
n
(x)

% .
[0, 1]

!

%$/
<

f
: R → R

!

5
f
(x) =
∞

n
=1
(−1)
n
|x| + n
,
5
f
(x) =
∞

n
=1
sin(n[x]
4
)
n
√
n
,
%$
<

f
:
R
2
→ R

!

f
(x, y) =
∞

n
=1
sin(n(x
2
+ y
2
))
"
n
4
[1 + x
2
+ y
2
]
.
%$
<

f
: R
2
→ R

!

-
5
f
(x, y) = sign(cos π(x
2
+ y
2
)),
5
f
(x, y) = (|x| + |y|) · e
[y]
,
!5
f
(x, y) = [x]
2
+ [y]
3
,
5
f
(x, y) = ln(1 + [x
2
+ y
2
]).

%$
f
n
(x) = cos
n
x, E
= [0, 2π]

"

%$
*
E
&
{f
n
}
!

"

f

f

!

%$$
*
E
&
{f
n
}
!

"

f

f
∼ g

{f
n
}

"

g

%$%
*
{f
n
}
!

"

f,

g

f

g

%$&
1

*
{f
n
}
!

"

E
(μ(E) < ∞)
&
f

{f
n
}

"

E
&
f

!

!

%$'
. !

!

!

{f
n
}

"

%$.
6

*
{f
n
}
!

"

E
&
f

!

!

{f
n
}

"

f

!

"

+

%%/
f
: [−1, 2] → R, f(x) = sign x

!

(

%%
[0, π]

f
(x) =
⎧
⎨
⎩
sin x, x ∈ [0, π] \Q
cos
2
(sin x), x ∈ Q

!

/

%%
*
f
: E → R−
!

A
⊂ E−
!

&

f
: A → R

A
&
!

%%
*
f
∼ g

g
∼ ϕ

f
∼ ϕ

%%
f
n
(x) = cos
n
x, E
= [0, 2π]

"

!

_

!

E
δ
&
δ
= 10
−3
!

%%$
[0, 1]

\

Z

!

/

!

ϕ

&
%%%
f

!

"

f
n

"

%%&
f
n
(x) = x
n
, x
∈ [0, 1]

"

θ
(x) ≡ 0
"

!

!

%%'
f
n
(x) = x
n
,
x
∈ [−1, 1]

"

\

Z

c
%%.
\

!

"

"

c
%&/
<

f
: R → R

!

g
: R → R

&
g
(x) = f(x)

!

x
∈ R

!

5
f
(x) =
⎧
⎨
⎩
sin x, x ∈ Q
0, x ∈ R\Q,
5
f
(x) =
⎧
⎨
⎩
arctgx, x ∈ Z
π,
x
∈ R\Z,
!5
f
(x) =
⎧
⎨
⎩
x
2
,
x
2
∈ Q
0, x
2
∈ R\Q,
5
f
(x) =
⎧
⎨
⎩
ln(1 + |x|), e
x
∈ R\Q
sin x
2
,
e
x
∈ Q.

%&
<

f
: R
2
→ R

!

g
: R
2
→ R

&
g
(x, y) = f(x, y)

!

(x, y) ∈ R
2

!

5
f
(x, y) =
⎧
⎨
⎩
x
+ y, (x, y) ∈ Q × Q
x
2
,
(x, y) ∈ R\(Q × Q),
5
f
(x, y) =
⎧
⎨
⎩
sin x + cos y, (x, y) ∈ Q × R
cos x − sin y, (x, y) /∈ Q × R,
!5
f
(x, y) =
⎧
⎨
⎩
xy,
(x, y) ∈ (R\Q) × R
x
+ y, (x, y) /
∈ (R\Q) × R,
5
f
(x, y) =
⎧
⎨
⎩
[x] + [y] , (x, y) ∈ R × Q
chx,
(x, y) /
∈ R × Q.
%&

f
k
: [a, b] → R, k = 1, 2, . . . , n

!

<

[a, b]

!

5
min {f
1
(x), . . . , f
n
(x)} ;
5
max {f
1
(x), . . . , f
n
(x)} ;
!5
f
1
(x)
ln (2 + |f
2
(x)|)
;
5
f
1
(x)
ch[f
2
(x)]
;
5
f
1
(x) · f
2
(x)
1 + |max {f
3
(x), f
4
(x)}|
.
%&
A
−
!

&
f, f
n
, g
n
: A → R
!

<
&
!

5
∞
∪
n
=1
{x ∈ A : f
n
(x) ≥ 0} .
5
∞
∩
n
=1
{x ∈ A : f
n
(x) ≥ f(x)} .
!5

x
∈ A : sup
n
≥1
f
n
(x) = f(x)

.
5

x
∈ A : inf
n
≥1
f
n
(x) < f(x)

.
5
x
∈ A : lim
n
→∞
f
n
(x) > f(x)
.

5

x
∈ A : lim
n
→∞
f
n
(x) < f(x)

.
5
∞
∪
n
=1
{x ∈ A : f
n
(x) < g
n
(x)} .
5

x
: inf
n
≥1
f
n
(x) = inf
n
≥1
g
n
(x)

.

%&
<
f
n
: R → R

"

!

g
: R → R
"

&
lim
n
→∞
f
n
(x) = g(x)

R

!

5
f
n
(x) = cos
n
x.
5
f
n
(x) =

2
π
arctg x

n
+ sin
n
2x.
!5
f
n
(x) = x
2
· sin
n
x
2
.
5
f
n
(x) =
n
2
· sin
2
x
1 + n
2
· sin
2
x
.
5
f
n
(x) =
sin
n
x
2 + sin
n
x
.

5
f
n
(x) = exp(−n
##
x
2
− 1
##)
.
%&$
<
f
n
: R
2
→ R

"

!

g
1
: R
2
→ R

g
2
: R
2
→ R

&
lim
n
→∞
f
n
(x) = g
1
(x)

lim
n
→∞
f
n
(x) = g
2
(x)

R
2

+
5
f
n
(x, y) = cos
n

x
2
+ y
2

.
5
f
n
(x, y) = exp

−n

x
2
+ y
2

.
!5
f
n
(x, y) = exp(−n |x + y|).
5
f
n
(x, y) = 2
sin
n
(x
4
+y
4
)
.
5
f
n
(x, y) =
n
"
|x|

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