Chứng minh các hệ thức sau:
a) \(\frac{1-cos\alpha}{sin\alpha}=\frac{sin\alpha}{1+cos\alpha}\)
b) \(tan^2\alpha-sin^2\alpha=tan^2\alpha.sin^2\alpha\)
c) \(\frac{1-tan\alpha}{1+tan\alpha}=\frac{cos\alpha-sin\alpha}{cos\alpha+sin\alpha}\)
cm các đẳng thức:
a) \(\frac{1+\sin^2\alpha}{1-\sin^2\alpha}=1+2\tan^2\alpha\)
b) \(\frac{\cos\alpha}{1+\sin\alpha}+\tan\alpha=\frac{1}{\cos\alpha}\)
c) \(\frac{\sin\alpha}{1+\cos\alpha}+\frac{1+\cos\alpha}{\sin\alpha}=\frac{2}{\sin\alpha}\)
\(\frac{1+sin^2a}{1-sin^2a}=\frac{1+sin^2a}{cos^2a}=\frac{1}{cos^2a}+\frac{sin^2a}{cos^2a}=1+tan^2a+tan^2a=1+2tan^2a\)
\(\frac{cosa}{1+sina}+tana=\frac{cosa}{1+sina}+\frac{sina}{cosa}=\frac{cos^2a+sina+sin^2a}{cosa\left(1+sina\right)}=\frac{1+sina}{cosa\left(1+sina\right)}=\frac{1}{cosa}\)
\(\frac{sina}{1+cosa}+\frac{1+cosa}{sina}=\frac{sin^2a+cos^2a+2cosa+1}{\left(1+cosa\right)sina}=\frac{2+2cosa}{\left(1+cosa\right)sina}=\frac{2\left(1+cosa\right)}{\left(1+cosa\right)sina}=\frac{2}{sina}\)
CMR
a)\(\frac{1+\cos\alpha}{\sin\alpha}=\frac{\sin\alpha}{1-\cos\alpha}\)
b)\(\frac{\tan\alpha+1}{\tan\alpha-1}=\frac{1+\cot\alpha}{1-\cot\alpha}\)
c) \(\tan^2\alpha-\sin^2\alpha=\tan^2\alpha.\sin^2\alpha\)
d)\(\frac{1-4\sin^2\alpha.\cos^2\alpha}{\left(\sin\alpha-\cos\alpha\right)^2}=\left(\sin\alpha+\cos\alpha\right)^2\)
Chứng minh các đẳng thức:
a) \({\cos ^4}\alpha - {\sin ^4}\alpha = 2{\cos ^2}\alpha - 1\);
b) \(\frac{{{{\cos }^2}\alpha + {{\tan }^2}\alpha - 1}}{{{{\sin }^2}\alpha }} = {\tan ^2}\alpha \).
a)
Ta có:
\({\cos ^4}\alpha {\sin ^4}\alpha = \left( {{{\cos }^2}\alpha - {{\sin }^2}\alpha } \right)\left( {{{\cos }^2}\alpha + {{\sin }^2}\alpha } \right) \\= {\cos ^2}\alpha - {\sin ^2}\alpha = {\cos ^2}\alpha - (1 - {\cos ^2}\alpha ) \\= {\cos ^2}\alpha - 1 + {\cos ^2}\alpha = 2{\cos ^2}\alpha - 1\)
(đpcm)
b)
Ta có:
\(\frac{{{{\cos }^2}\alpha + {{\tan }^2}\alpha - 1}}{{{{\sin }^2}\alpha }} = \frac{{{{\cos }^2}\alpha \; + {{\tan }^2}\alpha - {{\sin }^2}\alpha - {{\cos }^2}\alpha }}{{{{\sin }^2}\alpha }} \\= \frac{{{{\tan }^2}\alpha - {{\sin }^2}\alpha }}{{{{\sin }^2}\alpha }} = \frac{{\frac{{{{\sin }^2}\alpha }}{{{{\cos }^2}\alpha }} - {{\sin }^2}\alpha }}{{{{\sin }^2}\alpha }} \\= \frac{1}{{{{\cos }^2}\alpha }} - 1 = {\tan ^2}\alpha \)
(đpcm)
Chứng minh các hệ thức sau:
a) \({\sin ^2}\alpha + {\cos ^2}\alpha = 1\).
b) \(1 + {\tan ^2}\alpha = \frac{1}{{{{\cos }^2}\alpha }}\quad (\alpha \ne {90^o})\)
c) \(1 + {\cot ^2}\alpha = \frac{1}{{{{\sin }^2}\alpha }}\quad ({0^o} < \alpha < {180^o})\)
Tham khảo:
a)
Gọi M(x;y) là điểm trên đường tròn đơn vị sao cho \(\widehat {xOM} = \alpha \). Gọi N, P tương ứng là hình chiếu vuông góc của M lên các trục Ox, Oy.
Ta có: \(\left\{ \begin{array}{l}x = \cos \alpha \\y = \sin \alpha \end{array} \right. \Rightarrow \left\{ \begin{array}{l}{\cos ^2}\alpha = {x^2}\\{\sin ^2}\alpha = {y^2}\end{array} \right.\)(1)
Mà \(\left\{ \begin{array}{l}\left| x \right| = ON\\\left| y \right| = OP = MN\end{array} \right. \Rightarrow \left\{ \begin{array}{l}{x^2} = {\left| x \right|^2} = O{N^2}\\{y^2} = {\left| y \right|^2} = M{N^2}\end{array} \right.\)(2)
Từ (1) và (2) suy ra \({\sin ^2}\alpha + {\cos ^2}\alpha = O{N^2} + M{N^2} = O{M^2}\) (do \(\Delta OMN\) vuông tại N)
\( \Rightarrow {\sin ^2}\alpha + {\cos ^2}\alpha = 1\) (vì OM =1). (đpcm)
b)
Ta có: \(\tan \alpha = \frac{{\sin \alpha }}{{\cos \alpha }}\;\;(\alpha \ne {90^o})\)
\( \Rightarrow 1 + {\tan ^2}\alpha = 1 + \frac{{{{\sin }^2}\alpha }}{{{{\cos }^2}\alpha }} = \frac{{{{\cos }^2}\alpha }}{{{{\cos }^2}\alpha }} + \frac{{{{\sin }^2}\alpha }}{{{{\cos }^2}\alpha }} = \frac{{{{\sin }^2}\alpha + {{\cos }^2}\alpha }}{{{{\cos }^2}\alpha }}\)
Mà theo ý a) ta có \({\sin ^2}\alpha + {\cos ^2}\alpha = 1\) với mọi góc \(\alpha \)
\( \Rightarrow 1 + {\tan ^2}\alpha = \frac{1}{{{{\cos }^2}\alpha }}\) (đpcm)
c)
Ta có: \(\cot \alpha = \frac{{\cos \alpha }}{{\sin \alpha }}\;\;\;({0^o} < \alpha < {180^o})\)
\( \Rightarrow 1 + {\cot ^2}\alpha = 1 + \frac{{{{\cos }^2}\alpha }}{{{{\sin }^2}\alpha }} = \frac{{{{\sin }^2}\alpha }}{{{{\sin }^2}\alpha }} + \frac{{{{\cos }^2}\alpha }}{{{{\sin }^2}\alpha }} = \frac{{{{\sin }^2}\alpha + {{\cos }^2}\alpha }}{{{{\sin }^2}\alpha }}\)
Mà theo ý a) ta có \({\sin ^2}\alpha + {\cos ^2}\alpha = 1\) với mọi góc \(\alpha \)
\( \Rightarrow 1 + {\cot ^2}\alpha = \frac{1}{{{{\sin }^2}\alpha }}\) (đpcm)
Chứng minh các đẳng thức lượng giác sau:
a) \({\sin ^4}\alpha - {\cos ^4}\alpha = 1 - 2{\cos ^2}\alpha \)
b) \(\tan \alpha + \cot \alpha = \frac{1}{{\sin \alpha .\cos \alpha }}\)
a) Ta có:
\(\begin{array}{l}{\sin ^4}\alpha - {\cos ^4}\alpha = 1 - 2{\cos ^2}\alpha \\ \Leftrightarrow \left( {{{\sin }^2}\alpha + {{\cos }^2}\alpha } \right)\left( {{{\sin }^2}\alpha - {{\cos }^2}\alpha } \right) = 1 - 2{\cos ^2}\alpha \\ \Leftrightarrow {\sin ^2}\alpha - {\cos ^2}\alpha - 1 + 2{\cos ^2}\alpha = 0\\ \Leftrightarrow {\sin ^2}\alpha + {\cos ^2}\alpha - 1 = 0\\ \Leftrightarrow 1 - 1 = 0\\ \Leftrightarrow 0 = 0\end{array}\)
Đẳng thức luôn đúng
b) Ta có:
\(\begin{array}{l}\tan \alpha + \cot \alpha = \frac{1}{{\sin \alpha .\cos \alpha }}\\ \Leftrightarrow \frac{{\sin \alpha }}{{\cos \alpha }} + \frac{{\cos \alpha }}{{\sin \alpha }} = \frac{1}{{\sin \alpha .\cos \alpha }}\\ \Leftrightarrow \frac{{{{\sin }^2}\alpha + {{\cos }^2}\alpha }}{{\cos \alpha .\sin \alpha }} = \frac{1}{{\sin \alpha .\cos \alpha }}\\ \Leftrightarrow \frac{1}{{\sin \alpha .\cos \alpha }} = \frac{1}{{\sin \alpha .\cos \alpha }}\end{array}\)
Đẳng thức luôn đúng
Cho \(0< \alpha< 90\). Chứng minh các hệ thức sau:
a) \(\frac{sin^2\alpha-cos^2\alpha+cos^4\alpha}{cos^2\alpha-sin^2\alpha+sin^4\alpha}=tan^4\alpha\)
b) \(sin^4\alpha+cos^4\alpha=1-2.sin^2.cos^2\alpha\)
\(\frac{sin^2a-cos^2a+cos^4a}{cos^2a-sin^2a+sin^4a}=\frac{sin^2a-cos^2a\left(1-cos^2a\right)}{cos^2a-sin^2a\left(1-sin^2a\right)}=\frac{sin^2a-cos^2a.sin^2a}{cos^2a-sin^2a.cos^2a}\)
\(=\frac{sin^2a\left(1-cos^2a\right)}{cos^2a\left(1-sin^2a\right)}=\frac{sin^2a.sin^2a}{cos^2a.cos^2a}=tan^4a\)
\(sin^4a+cos^4a=\left(sin^2a+cos^2a\right)^2-sin^2a.cos^2a=1-2sin^2a.cos^2a\)
Chứng minh:
a) \(\tan^2\alpha-\sin^2\alpha=\tan^2\alpha.\sin^2\alpha\)
b) \(\frac{1-\cos\alpha}{\sin\alpha}=\frac{\sin\alpha}{17\cos\alpha}\)
đơn giản biểu thức:
a, \(\left(\frac{sin\alpha+tan\alpha}{cos\alpha+1}\right)^2+1\)
b, \(tan\alpha\left(\frac{1+cos^2\alpha}{sin\alpha}-sin\alpha\right)\)
c, \(\frac{cot^2\alpha-cos^2\alpha}{cot^2a}+\frac{sin\alpha.cos\alpha}{cot\alpha}\)
\(a=\left(\frac{sina+\frac{sina}{cosa}}{cosa+1}\right)^2+1=\left(\frac{sina\left(cosa+1\right)}{cosa\left(cosa+1\right)}\right)^2+1\)
\(=tan^2a+1=\frac{1}{cos^2a}\)
\(b=\frac{sina}{cosa}\left(\frac{1+cos^2a-sin^2a}{sina}\right)=\frac{sina}{cosa}\left(\frac{2cos^2a}{sina}\right)=2cosa\)
\(c=1-\frac{cos^2a}{cot^2a}+\frac{sina.cosa}{\frac{cosa}{sina}}=1-cos^2a.\frac{sin^2a}{cos^2a}+\frac{sin^2a.cosa}{cosa}\)
\(=1-sin^2a+sin^2a=1\)