Tính các tính phân sau
a) \(\int\limits_0^1 {{{dx} \over {{x^2} + 1}}} \)
b) \(\int\limits_0^1 {{{dx} \over {{x^2} + x + 1}}} \)
c) \(\int\limits_0^1 {{x^2}{e^x}dx} \)
a) Đặt \(x = \tan t \Rightarrow dx = {1 \over {{{\cos }^2}t}}dt\)
\(\int\limits_0^1 {{{dx} \over {{x^2} + 1}}} = \int\limits_0^{{\pi \over 4}} {{{dt} \over {{{\cos }^2}t({{\tan }^2}t + 1)}}} = \int\limits_0^{{\pi \over 4}} {dt} = {\pi \over 4}\)
b) Ta có:
\(I = \int\limits_0^1 {{{dx} \over {{x^2} + x + 1}}} = \int\limits_0^1 {{{dx} \over {{{(x + {1 \over 2})}^2} + {{({{\sqrt 3 } \over 2})}^2}}}} \)
Đặt \(x + {1 \over 2} = {{\sqrt 3 } \over 2}\tan t \Rightarrow dx = {{\sqrt 3 } \over 2}(1 + {\tan ^2}t)dt\)
\(I = \int\limits_{{\pi \over 6}}^{{\pi \over 3}} {{{{{\sqrt 3 } \over 2}dt} \over {{3 \over 4}}}} = {4 \over 3}.{{\sqrt 3 } \over 2}.{\pi \over 6} = {{\sqrt 3 \pi } \over 9}\)
c) Đặt
\(\left\{ \matrix{
u = {x^2} \hfill \cr
dv = {e^x}dx \hfill \cr} \right. \Rightarrow \left\{ \matrix{
du = 2xdx \hfill \cr
v = {e^x} \hfill \cr} \right.\)
Do đó: \(\int\limits_0^1 {{x^2}{e^x}dx} = {x^2}{e^x}|_0^1 - 2\int\limits_0^1 {x{e^x}dx = e - 2\int\limits_0^1 {x{e^x}dx\,\,\,\,\,\,\,(*)} } \)
Đặt
\(\left\{ \matrix{
u = x \hfill \cr
dv = {e^x}dx \hfill \cr} \right. \Rightarrow \left\{ \matrix{
du = dx \hfill \cr
v = {e^x} \hfill \cr} \right.\)
Suy ra:
\(\int\limits_0^1 {x{e^x}dx = x{e^x}|_0^1} - \int\limits_0^1 {{e^x}dx} = e - {e^x}|_0^1 = 1\)
Từ (*) suy ra: \(\int\limits_0^1 {{x^2}{e^x}dx} = e - 2\)
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