Giả sử có \(\Delta ABC\) có \(A=90^o;AH\) là đường cao

Có \(\sin\widehat{B}=\frac{AC}{BC};\cos\widehat{B}=\frac{AB}{BC};\tan\widehat{B}=\frac{AC}{AB};\cot\widehat{B}=\frac{AB}{AC}\)

\(\frac{\cot^2\widehat{B}-\cos^2\widehat{B}}{\cot^2\widehat{B}}+\frac{\sin\widehat{B}.\cos\widehat{B}}{\cot\widehat{B}}=\frac{\frac{AB^2}{AC^2}-\frac{AB^2}{BC^2}}{\frac{AB^2}{AC^2}}+\frac{\frac{AC}{BC}.\frac{AB}{BC}}{\frac{AB}{AC}}\)

\(=\frac{\frac{AB^2}{AC^2}}{\frac{AB^2}{AC^2}}-\frac{\frac{AB^2}{BC^2}}{\frac{AB^2}{AC^2}}+\frac{\frac{AC.AB}{BC^2}}{\frac{AB}{AC}}=1-\frac{AC^2}{BC^2}+\frac{AC^2}{BC^2}=1\)

Mấy bài nè vận dụng hệ thức sin cos tan cot

\(1-\frac{sin^3x}{sinx+cosx}-\frac{cos^3x}{sinx+cosx}=1-\frac{sin^3x+cos^3x}{sinx+cosx}\)

\(=1-\frac{\left(sinx+cosx\right)\left(sin^2x+cos^2x-sinx.cosx\right)}{sinx+cosx}=1-\left(1-sinxcosx\right)\)

\(=sinx.cosx\)

sin³x - cos³x chứ bạn ?????

\(2a+3b+\frac{6}{a}+\frac{10}{b}=\left(\frac{3}{2}a+\frac{6}{a}\right)+\left(\frac{5}{2}b+\frac{10}{b}\right)+\frac{1}{2}\left(a+b\right)\)

\(\ge2\sqrt{\frac{3}{2}a.\frac{6}{a}}+2\sqrt{\frac{5}{2}b.\frac{10}{b}}+\frac{1}{2}.4=18\)

\(VP=\frac{2\sin^2x-1}{\sin^4x}=\frac{\sin^2x+\sin^2x-1}{\sin^4x}=\frac{\sin^2x-\cos^2x}{\sin^4x}\)

\(=\frac{\left(\sin^2x-\cos^2x\right).1}{\sin^4x}=\frac{\left(\sin^2x-\cos^2x\right)\left(\sin^2x+\cos^2x\right)}{\sin^4x}=\frac{\sin^4x-\cos^4x}{\sin^4x}\)

\(=1-\cot^4x\)=VT

Có \(\sin^2x+\cos^2x=1\Rightarrow\sin^2x-\cos^2x=1-2\cos^2x\)

\(\Rightarrow VT=\frac{\sin^2x-\cos^2x}{\sin^2x.\cos^2x}=\frac{\sin^4x-\cos^4x}{\sin^2x.\cos^2x}=\frac{\sin^2x}{\cos^2x}-\frac{\cos^2x}{\sin^2x}=\tan^2x-\cot^2x=VP\)

B A C a

Xét ΔBAC vuông tại B có a = ^A ta có :

a) \(\frac{\sin\alpha}{\cos\alpha}=\frac{\sin A}{\cos A}=\frac{\frac{BC}{AB}}{\frac{AB}{AC}}=\frac{BC}{AB}\cdot\frac{AC}{AB}=\frac{BC}{AB}=\tan A=\tan\alpha\left(đpcm\right)\)

b) \(\frac{\cos\alpha}{\sin\alpha}=\frac{\cos A}{\sin A}=\frac{\frac{AB}{AC}}{\frac{BC}{AC}}=\frac{AB}{AC}\cdot\frac{AC}{BC}=\frac{AB}{BC}=\cot A=\cot\alpha\left(đpcm\right)\)

c) \(\tan\alpha\cdot\cot\alpha=\tan A\cdot\cot A=\frac{BC}{AB}\cdot\frac{AB}{BC}=1\left(đpcm\right)\)

d) \(\sin^2\alpha+\cos^2\alpha=\sin^2A+\cos^2A=\frac{BC^2}{AC^2}+\frac{AB^2}{AC^2}=\frac{AB^2+BC^2}{AC^2}=1\left(đpcm\right)\)

e) \(\frac{1}{\cos^2\alpha}=\frac{1}{\cos^2A}=\frac{1}{\frac{AB^2}{AC^2}}=\frac{AC^2}{AB^2};1+\tan^2\alpha=1+\tan^2A=1+\frac{BC^2}{AB^2}=\frac{AB^2+BC^2}{AB^2}=\frac{AC^2}{AB^2}\)

\(\Rightarrow1+\tan^2\alpha=\frac{1}{\cos^2\alpha}\left(đpcm\right)\)

f) \(\frac{1}{\sin^2\alpha}=\frac{1}{\sin^2A}=\frac{1}{\frac{BC^2}{AC^2}}=\frac{AC^2}{BC^2};1+\cot^2\alpha=1+\cot^2A=1+\frac{AB^2}{BC^2}=\frac{BC^2+AB^2}{BC^2}=\frac{AC^2}{BC^2}\)

\(\Rightarrow1+\cot^2\alpha=\frac{1}{\sin^2\alpha}\left(đpcm\right)\)

\(=cot^2x\left(cos^2x-1\right)+cos^2x+4\left(sin^2x+cos^2x\right)\)

\(=\frac{cos^2x}{sin^2x}\left(-sin^2x\right)+cos^2x+4\)

\(=-cos^2x+cos^2x+4=4\)

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