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| Страница 1 из 1 |
[ Сообщений: 6 ] |
30.03.2011, 21:40 
![$\[{\log _{\left| x \right|}}(\sqrt {9 - {x^2}} - x - 1) \ge 1\]$](https://dxdy-01.korotkov.co.uk/f/8/9/c/89c93956b7650b8b929b08879d607acb82.png "$\[{\log _{\left| x \right|}}(\sqrt {9 - {x^2}} - x - 1) \ge 1\]$")
![$\[\left| x \right| > 0;\left| x \right| \ne 1 \Rightarrow x \ne 1; - 1;0\]$](https://dxdy-03.korotkov.co.uk/f/6/b/5/6b5744a6d185435a931e2cd9aac1e3b482.png "$\[\left| x \right| > 0;\left| x \right| \ne 1 \Rightarrow x \ne 1; - 1;0\]$")
![$\[9 - {x^2} > 0 \Rightarrow x \in [ - 3;3]\]$](https://dxdy-04.korotkov.co.uk/f/f/d/3/fd30c3bbb18e14f41bbc2c5fb5da217b82.png "$\[9 - {x^2} > 0 \Rightarrow x \in [ - 3;3]\]$")
![$\[\sqrt {9 - {x^2}} - x - 1 > 0\]$](https://dxdy-03.korotkov.co.uk/f/e/3/e/e3ec73334c41b45f12a6b60624e49cb582.png "$\[\sqrt {9 - {x^2}} - x - 1 > 0\]$")
![$\[{x^2} + x - 4 < 0\]$](https://dxdy-03.korotkov.co.uk/f/2/a/2/2a2892a827d75c1fc8c1d32feda3d49082.png "$\[{x^2} + x - 4 < 0\]$")
![$\[x \in [ - 3;\frac{{ - 1 + \sqrt {17} }}{2}]\]$](https://dxdy-03.korotkov.co.uk/f/2/f/1/2f148e10e19d9945bc0015f90489f92482.png "$\[x \in [ - 3;\frac{{ - 1 + \sqrt {17} }}{2}]\]$")
![$\[[ - 3; - 1) \cup ( - 1;0) \cup (0;1) \cup (1;\frac{{ - 1 + \sqrt {17} }}{2})\]$](https://dxdy-04.korotkov.co.uk/f/f/b/e/fbe97a85f6fba0347a1d0cc539c01c3c82.png "$\[[ - 3; - 1) \cup ( - 1;0) \cup (0;1) \cup (1;\frac{{ - 1 + \sqrt {17} }}{2})\]$")
![$\[{\log _{\left| x \right|}}(\sqrt {9 - {x^2}} - x - 1) \ge {\log _{\left| x \right|}}\left| x \right|\]$](https://dxdy-02.korotkov.co.uk/f/d/3/3/d330fa480dfad94afafe5f121bf0682982.png "$\[{\log _{\left| x \right|}}(\sqrt {9 - {x^2}} - x - 1) \ge {\log _{\left| x \right|}}\left| x \right|\]$")
![$\[(\sqrt {9 - {x^2}} - x - 1) \ge \left| x \right|\]$](https://dxdy-03.korotkov.co.uk/f/e/b/2/eb2b4a8f4e8f3c369235b5f1e45e9e1982.png "$\[(\sqrt {9 - {x^2}} - x - 1) \ge \left| x \right|\]$")
![$\[\sqrt {9 - {x^2}} + x - 1 \ge x\]$](https://dxdy-03.korotkov.co.uk/f/6/8/5/685b49f33b0d034bfca462226ca2af0d82.png "$\[\sqrt {9 - {x^2}} + x - 1 \ge x\]$")
![$\[\sqrt {9 - {x^2}} \ge 1\]$](https://dxdy-02.korotkov.co.uk/f/d/9/d/d9d6b521c6d9588df56e22b06d013e3182.png "$\[\sqrt {9 - {x^2}} \ge 1\]$")
![$\[{x^2} \le 8\]$](https://dxdy-03.korotkov.co.uk/f/a/6/9/a690956686bb036fa7940c543277471c82.png "$\[{x^2} \le 8\]$")
![$\[x \in [ - \sqrt 8 ;\frac{{ - 1 + \sqrt {17} }}{2}]\]$](https://dxdy-01.korotkov.co.uk/f/c/a/c/cac62109157a7e1b2ee9338b6dcdb2a782.png "$\[x \in [ - \sqrt 8 ;\frac{{ - 1 + \sqrt {17} }}{2}]\]$")
![$\[\sqrt {9 - {x^2}} - x - 1 \ge x\]$](https://dxdy-04.korotkov.co.uk/f/7/f/f/7fffd4139235745412936a545db6867c82.png "$\[\sqrt {9 - {x^2}} - x - 1 \ge x\]$")
![$\[\sqrt {9 - {x^2}} \ge 2x + 1\]$](https://dxdy-02.korotkov.co.uk/f/5/0/e/50e507f15d67ad5e24e2f1c27a1f098682.png "$\[\sqrt {9 - {x^2}} \ge 2x + 1\]$")
![$\[9 - {x^2} \ge 4{x^2} + 4x + 1\]$](https://dxdy-02.korotkov.co.uk/f/9/5/0/950fe795d07fe9d9abb2d5a3bfb0d91382.png "$\[9 - {x^2} \ge 4{x^2} + 4x + 1\]$")
![$\[5{x^2} + 4x - 8 \le 0\]$](https://dxdy-02.korotkov.co.uk/f/d/a/d/dad9bd74e2644a9048ea264399c64aa182.png "$\[5{x^2} + 4x - 8 \le 0\]$")
![$\[x \in [ - 3;\frac{{ - 2 + \sqrt {44} }}{5}]\]$](https://dxdy-03.korotkov.co.uk/f/6/1/b/61b95c4aa0a33a941697af75fb29ed5a82.png "$\[x \in [ - 3;\frac{{ - 2 + \sqrt {44} }}{5}]\]$")
![$\[[ - \sqrt 8 ; - 1) \cup ( - 1;0) \cup (0;\frac{{ - 2 + \sqrt {44} }}{5}]\]$](https://dxdy-04.korotkov.co.uk/f/b/d/0/bd05e1caa180ab1024daa25278d0048f82.png "$\[[ - \sqrt 8 ; - 1) \cup ( - 1;0) \cup (0;\frac{{ - 2 + \sqrt {44} }}{5}]\]$")
![$\[{\log _{\left| x \right|}}(\sqrt {9 - {x^2}} - x - 1) \ge {\log _{\left| x \right|}}\left| x \right|\]$](https://dxdy-03.korotkov.co.uk/f/2/8/c/28ca71e134dee5e3fa8a93dfe220e69582.png "$\[{\log _{\left| x \right|}}(\sqrt {9 - {x^2}} - x - 1) \ge {\log _{\left| x \right|}}\left| x \right|\]$")
![$\[(\sqrt {9 - {x^2}} - x - 1) \ge \left| x \right|\]$](https://dxdy-01.korotkov.co.uk/f/c/2/9/c2915fc7ce626369d27b0afefaade6b582.png "$\[(\sqrt {9 - {x^2}} - x - 1) \ge \left| x \right|\]$")
- неправильный переход.![$\[[-3;1)\cup(-1;0)\cup(0;1)\cup(1;\frac{{-1+\sqrt{17}}}{2})\]$](https://dxdy-04.korotkov.co.uk/f/b/f/5/bf50b884c6e3775096870feec66ea1c882.png "$\[[-3;1)\cup(-1;0)\cup(0;1)\cup(1;\frac{{-1+\sqrt{17}}}{2})\]$")
. 
и где 
. 
. 
: 
. Вы должны решить уравнение, при этом знак неравенства изменится на противоположный, по сравнению с предыдущим уравнением, а затем надо найти пересечение решения с этой частью ОДЗ.![$\[0 < \left| x \right| < 1\]$](https://dxdy-01.korotkov.co.uk/f/8/e/f/8ef0822e17811d813bfc9a757d2fb94b82.png "$\[0 < \left| x \right| < 1\]$")
![$\[{\log _{\left| x \right|}}(\sqrt {9 - {x^2}} - x - 1) \le {\log _{\left| x \right|}}\left| x \right|\]$](https://dxdy-04.korotkov.co.uk/f/b/a/c/bacc5f94aa5dd44ef7f27eaa3b50809982.png "$\[{\log _{\left| x \right|}}(\sqrt {9 - {x^2}} - x - 1) \le {\log _{\left| x \right|}}\left| x \right|\]$")
![$\[1)x < 0\]$](https://dxdy-03.korotkov.co.uk/f/e/1/0/e1074c63c9d0993ebcf2cdc3f8cba1a782.png "$\[1)x < 0\]$")
![$\[\sqrt {9 - {x^2}} + x - 1 \le x\]$](https://dxdy-02.korotkov.co.uk/f/9/5/5/9553b9de56aa4ba5d2262b1ff3249ab382.png "$\[\sqrt {9 - {x^2}} + x - 1 \le x\]$")
![$\[9 - {x^2} \le 1\]$](https://dxdy-01.korotkov.co.uk/f/8/8/7/88774f51e26ef6cacda43b17a51ea70b82.png "$\[9 - {x^2} \le 1\]$")
![$\[{x^2} \ge 8\]$](https://dxdy-03.korotkov.co.uk/f/2/8/4/284de34062addf0753b8c79849f255f282.png "$\[{x^2} \ge 8\]$")
![$\[x \in ( - \infty ; - \sqrt 8 ] \cup [\sqrt 8 ; + \infty )\]$](https://dxdy-02.korotkov.co.uk/f/d/c/3/dc3dca24533453953cdb056e5b0cf24582.png "$\[x \in ( - \infty ; - \sqrt 8 ] \cup [\sqrt 8 ; + \infty )\]$")
![$\[x \in [ - 3; - \sqrt 8 ] \cup [\sqrt 8 ;\frac{{ - 1 + \sqrt {17} }}{2}]\]$](https://dxdy-02.korotkov.co.uk/f/d/8/6/d8667898e7a587b8de30ecd007057b9682.png "$\[x \in [ - 3; - \sqrt 8 ] \cup [\sqrt 8 ;\frac{{ - 1 + \sqrt {17} }}{2}]\]$")
![$\[x \notin ОДЗ\]$](https://dxdy-01.korotkov.co.uk/f/c/e/5/ce5316a1b140f499324feb79b77dda9d82.png "$\[x \notin ОДЗ\]$")
![$\[2)x > 0\]$](https://dxdy-04.korotkov.co.uk/f/7/0/5/7052535bff486bfd9a5adc6a13d3ee3b82.png "$\[2)x > 0\]$")
![$\[\sqrt {9 - {x^2}} - x - 1 \le x\]$](https://dxdy-04.korotkov.co.uk/f/3/d/c/3dcb549c9f517ba333004a9ddb19d86a82.png "$\[\sqrt {9 - {x^2}} - x - 1 \le x\]$")
![$\[\sqrt {9 - {x^2}} \le 2x + 1\]$](https://dxdy-03.korotkov.co.uk/f/e/f/a/efa646907e67fabf13cf46fcd04ab45282.png "$\[\sqrt {9 - {x^2}} \le 2x + 1\]$")
![$\[9 - {x^2} \le 4{x^2} + 4x + 1\]$](https://dxdy-04.korotkov.co.uk/f/7/f/9/7f9b7d281767ee4adcfd3fdd86b6597c82.png "$\[9 - {x^2} \le 4{x^2} + 4x + 1\]$")
![$\[5{x^2} + 4x - 8 \ge 0\]$](https://dxdy-02.korotkov.co.uk/f/1/5/e/15e71934f9b1a576a2d2d5be77441c6182.png "$\[5{x^2} + 4x - 8 \ge 0\]$")
![$\[x \in ( - \infty ;\frac{{ - 2 - \sqrt {44} }}{5}] \cup [\frac{{ - 2 + \sqrt {44} }}{5}; + \infty )\]$](https://dxdy-03.korotkov.co.uk/f/6/d/5/6d584a3f600c44e3603c2b15fd1ddad982.png "$\[x \in ( - \infty ;\frac{{ - 2 - \sqrt {44} }}{5}] \cup [\frac{{ - 2 + \sqrt {44} }}{5}; + \infty )\]$")
![$\[x \in [ - 3;\frac{{ - 2 - \sqrt {44} }}{5}] \cup [\frac{{ - 2 + \sqrt {44} }}{5};1) \cup (1;\frac{{ - 1 + \sqrt {17} }}{2}]\]$](https://dxdy-01.korotkov.co.uk/f/0/6/6/066380fc64362a231c894044e815a58182.png "$\[x \in [ - 3;\frac{{ - 2 - \sqrt {44} }}{5}] \cup [\frac{{ - 2 + \sqrt {44} }}{5};1) \cup (1;\frac{{ - 1 + \sqrt {17} }}{2}]\]$")
![$\[x \in [\frac{{ - 2 + \sqrt {44} }}{5};1)\]$](https://dxdy-03.korotkov.co.uk/f/6/3/4/634c95cf5c499bd79a14bc9a43b5b15082.png "$\[x \in [\frac{{ - 2 + \sqrt {44} }}{5};1)\]$")
![$\[x \in [ - \sqrt 8 ; - 1) \cup [\frac{{ - 2 + \sqrt {44} }}{5};1)\]$](https://dxdy-01.korotkov.co.uk/f/8/7/8/8785183c2ab985248d5e16b0f37e232482.png "$\[x \in [ - \sqrt 8 ; - 1) \cup [\frac{{ - 2 + \sqrt {44} }}{5};1)\]$")
