Skip ໄປຫາເນື້ອຫາຫຼັກ
Microsoft
|
Math Solver
ແກ້
ການປະຕິບັດ
ຫຼິ້ນ
ຫົວຂໍ້
Pre-Algebra
Mean
Mode
ປັດໄຈທົ່ວໄປທີ່ຍິ່ງໃຫຍ່ທີ່ສຸດ
ຫນ້ອຍທີ່ສຸດທົ່ວໄປຫຼາຍ
ລະບຽບການດໍາເນີນງານ
ສ່ວນຍ່ອຍ
ສ່ວນປະກອບປະສົມ
ປັດຈຸບັນ
Exponents
Radicals
Algebra
Combine Like Terms
ແກ້ໄຂສໍາລັບVariable
ປັດໃຈ
ຂະຫຍາຍ
ປະເມີນຜົນສ່ວນປະກອບ
ສະສົມLinear Equations
ສະສົມQuadratic
ຄວາມບໍ່ສະເຫມີພາບ
ລະບົບຂອງEquations
ມັດທຣີສ
Trigonometry
ລຽບງ່າຍ
ປະເມີນຜົນ
Graphs
ແກ້ໄຂສະສົມ
Calculus
ຜະລິດຕະພັນ
Integrals
ຂີດຈໍາກັດ
Algebra Inputs
Trigonometry Inputs
Calculus Inputs
Matrix Inputs
ແກ້
ການປະຕິບັດ
ຫຼິ້ນ
ຫົວຂໍ້
Pre-Algebra
Mean
Mode
ປັດໄຈທົ່ວໄປທີ່ຍິ່ງໃຫຍ່ທີ່ສຸດ
ຫນ້ອຍທີ່ສຸດທົ່ວໄປຫຼາຍ
ລະບຽບການດໍາເນີນງານ
ສ່ວນຍ່ອຍ
ສ່ວນປະກອບປະສົມ
ປັດຈຸບັນ
Exponents
Radicals
Algebra
Combine Like Terms
ແກ້ໄຂສໍາລັບVariable
ປັດໃຈ
ຂະຫຍາຍ
ປະເມີນຜົນສ່ວນປະກອບ
ສະສົມLinear Equations
ສະສົມQuadratic
ຄວາມບໍ່ສະເຫມີພາບ
ລະບົບຂອງEquations
ມັດທຣີສ
Trigonometry
ລຽບງ່າຍ
ປະເມີນຜົນ
Graphs
ແກ້ໄຂສະສົມ
Calculus
ຜະລິດຕະພັນ
Integrals
ຂີດຈໍາກັດ
Algebra Inputs
Trigonometry Inputs
Calculus Inputs
Matrix Inputs
ພື້ນຖານ
algebra
trigonometry
calculus
ສະຖິຕິ
matrices
ຕົວອັກສອນ
ແກ້ສຳລັບ x
x=\pi n_{1}+\arctan(2)\text{, }n_{1}\in \mathrm{Z}
x=\pi n_{2}+\pi -\arctan(2)\text{, }n_{2}\in \mathrm{Z}
Graph
ແຕ້ມທັງສອງຂ້າງເປັນ 2 ມິຕິ
ແຕ້ມເປັນ 2 ມິຕິ
Quiz
Trigonometry
{ \tan ( x ) } ^ {2} = 4
ບັນຫາທີ່ຄ້າຍຄືກັນຈາກWeb Search
How do you find the derivative of \displaystyle{\left({1}-{\tan{{x}}}\right)}^{{2}} ?
https://socratic.org/questions/how-do-you-find-the-derivative-of-1-tanx-2
Derivative of \displaystyle{\left({1}-{\tan{{x}}}\right)}^{{2}} is \displaystyle-{2}{{\sec}^{{2}}{x}}+{2}{\tan{{x}}}{{\sec}^{{2}}{x}} Explanation: We can use Chain rule here. Let \displaystyle{f{{\left({x}\right)}}}={\left({1}-{\tan{{x}}}\right)}^{{2}} ...
How do you multiply and simplify \displaystyle{\left({1}+{\tan{{x}}}\right)}^{{2}} ?
https://socratic.org/questions/how-do-you-multiply-and-simplify-1-tanx-2
see below Explanation: \displaystyle{\left({1}+{\tan{{x}}}\right)}^{{2}}={\left({1}+{\tan{{x}}}\right)}{\left({1}+{\tan{{x}}}\right)} ---> FOIL \displaystyle={1}+{\tan{{x}}}+{\tan{{x}}}+{{\tan}^{{2}}{x}} ...
How to integrate (x+\tan x)^2
https://www.quora.com/How-do-I-integrate-x-tan-x-2
Open the brackets. You then have three separate integrals. The first \int x^2dx is simple and equal to \frac {x^3}{3}. The second \int\tan^2xdx is also simple if you remember that \frac {d (\tan x)}{dx}=1+\tan^{2}x ...
Deducing the series expansion of \arctan(x^2) via the series expansion of \arctan(x) at x=0
https://math.stackexchange.com/questions/1652236/deducing-the-series-expansion-of-arctanx2-via-the-series-expansion-of-ar
This approach is perfectly valid. When we have a series \sum_{n=0}^\infty a_nx^n then replacing x\mapsto x^2 we get \sum_{n=0}^\infty a_nx^{2n}=\sum_{n=0}^\infty b_nx^n which is a power ...
\displaystyle{{\tan}^{{2}}{\left({x}\right)}}={0} How can you solve for \displaystyle{x} ?
https://socratic.org/questions/tan-2-x-0-how-can-you-solve-for-x
\displaystyle{x}={k}\pi,{k}\in{Z} Explanation: \displaystyle{{\tan}^{{2}}{x}}={0}\Rightarrow{\left({\tan{{x}}}\right)}^{{2}}={0}\Rightarrow{\tan{{x}}}={0}\Rightarrow{\sin{{x}}}={0} \displaystyle\Rightarrow{x}={k}\pi,{k}\in{Z}
How many solutions does a trigonometric function have 0\le x \le 2\pi?
https://math.stackexchange.com/questions/2118471/how-many-solutions-does-a-trigonometric-function-have-0-le-x-le-2-pi
I do one, you do the other: \tan^22x=1\iff \tan 2x=\pm1\iff 2x=\pm\frac\pi4+k\pi\;,\;\;k\in\Bbb Z\iff \iff x=\pm\frac\pi8+k\frac\pi2\;,\;\;k\in\Bbb Z Hint for the other: \sin3x=-\frac14\iff3x=\arcsin\left(-\frac14\right)+2k\pi\ldots\ldots\text{etc.}
ລາຍການ
ແບ່ງປັນ
ສໍາເນົາ
ສໍາເນົາຄລິບ
ບັນຫາທີ່ຄ້າຍຄືກັນ
\cos ( 3x + \pi ) = 0.5
\sin ( x ) = 1
\sin ( x ) - cos ( x ) = 0
\sin ( x ) + 2 = 3
{ \tan ( x ) } ^ {2} = 4
ກັບຄືນສູ່ຍອດ