Giúp vs ạ: Cho tam giác ABC, chứng minh :
Sin A+Sin B+Sin C\(=\)4.Cos\(\dfrac{A}{2}\).Cos\(\dfrac{B}{2}\).Cos\(\dfrac{C}{2}\)
Cảmơn nhiều ạ>
Giả sử A, B, C là ba góc của tam giác ABC, chứng minh rằng :
a) \(\dfrac{\sin C}{\cos A\cos B}=\tan A+\tan B\)
b) \(\sin A+\sin B+\sin C=4\cos\dfrac{A}{2}\cos\dfrac{B}{2}\cos\dfrac{C}{2}\)
c) \(\dfrac{\sin A+\sin B+\sin C}{\sin A+\sin B-\sin C}=\cot\dfrac{A}{2}\cot\dfrac{B}{2}\)
Cho tam giác ABC. Chứng minh \(\dfrac{\sin^3\dfrac{B}{2}}{\cos\left(\dfrac{A+C}{2}\right)}\)+ \(\dfrac{\cos^3\dfrac{B}{2}}{sin\left(\dfrac{A+C}{2}\right)}\)-\(\dfrac{\cos\left(A-C\right)}{\sin B}\).\(\tan B=2\)
Cho tam giác $A B C$, chứng minh rằng:
a) $\cos \dfrac{A}{2}=\sqrt{\dfrac{p(p-a)}{b c}}$.
b) $\sin A+\sin B+\sin C=4 \cos \dfrac{A}{2} \cos \dfrac{B}{2} \cos \dfrac{C}{2}$.
Chứng minh rằng với mọi tam giác ABC ta có:
a) \(SinA+SinB+SinC\le Cos\dfrac{A}{2}+Cos\dfrac{B}{2}+Cos\dfrac{C}{2}\)
b) \(CosA.CosB.CosC\le Sin\dfrac{A}{2}.Sin\dfrac{B}{2}.Sin\dfrac{C}{2}\)
1. Cho tam giác $ABC$. Chứng minh rằng $\sin ^{2} A+\sin ^{2} B-\sin ^{2} C=2\sin A.\sin B.\cos C$.
2. Chứng minh rằng:
a. $\sin \alpha .\sin \left(\dfrac{\pi }{3} -\alpha \right).\sin \left(\dfrac{\pi }{3} +\alpha \right)=\dfrac{1}{4} \sin 3\alpha $
b. $\sin 5\alpha -2\sin \alpha \left({\rm cos} {\rm 4}\alpha +\cos 2\alpha \right)=\sin \alpha $
Chứng minh các biểu thức sau không phụ thuộc vào x:
a) \(A=2\left(cos^6x+sin^6x\right)-3\left(cos^4x+sin^4x\right)\)
b) \(B=2\left(sin^4x+cos^4x+sin^2x.cos^2x\right)^2-sin^8x-cos^8x\)
c) \(C=\dfrac{sin^2x}{1+cotgx}+\dfrac{cos^2x}{1+tgx}+sinx.cosx\)
d) \(D=\dfrac{cotg^2a-cos^2x}{cotg^2x}+\dfrac{sinx.cosx}{cotgx}\)
e) \(E=3\left(sin^8x-cos^8x\right)+4\left(cos^6x-2sin^6x\right)+6sin^4x\)
f) \(F=\dfrac{tg^2x}{sin^2x.cos^2x}-\left(1+tg^2x\right)^2\)
Cho tam giác $A B C$. Chứng minh rằng:
$\dfrac{\sin ^{3} \dfrac{B}{2}}{\cos \left(\dfrac{A+C}{2}\right)}+\dfrac{\cos ^{3} \dfrac{B}{2}}{\sin \left(\dfrac{A+C}{2}\right)}-\dfrac{\cos (A+C)}{\sin B} \cdot \tan B=2$.
Vì A+B+C=180^{\circ}A+B+C=180∘ nên V T=\dfrac{\sin ^{3} \dfrac{B}{2}}{\cos \left(\dfrac{180^{\circ}-B}{2}\right)}+\dfrac{\cos ^{3} \dfrac{B}{2}}{\sin \left(\dfrac{180^{\circ}-B}{2}\right)}-\dfrac{\cos \left(180^{\circ}-B\right)}{\sin B} \cdot \tan BVT=cos(2180∘−B)sin32B+sin(2180∘−B)cos32B−sinBcos(180∘−B)⋅tanB.
V T=\dfrac{\sin ^{3} \dfrac{B}{2}}{\cos \left(\dfrac{180^{\circ}-B}{2}\right)}+\dfrac{\cos ^{3} \dfrac{B}{2}}{\sin \left(\dfrac{180^{\circ}-B}{2}\right)}-\dfrac{\cos \left(180^{\circ}-B\right)}{\sin B} \cdot \tan BVT=cos(2180∘−B)sin32B+sin(2180∘−B)cos32B−sinBcos(180∘−B)⋅tanB =\dfrac{\sin ^{3} \dfrac{B}{2}}{\sin \dfrac{B}{2}}+\dfrac{\cos ^{3} \dfrac{B}{2}}{\cos \dfrac{B}{2}}-\dfrac{-\cos B}{\sin B} \cdot \tan B=\sin ^{2} \dfrac{B}{2}+\cos ^{2} \dfrac{B}{2}+1=2=V P=sin2Bsin32B+cos2Bcos32B−sinB−cosB⋅tanB=sin22B+cos22B+1=2=VP
Suy ra điều phải chứng minh.
4) Cho △ABC. Đẳng thức nào \(Sai\) ?
\(A.\sin\left(A+B-2C\right)=\sin3C\)
\(B.\cos\dfrac{B+C}{2}=\sin\dfrac{A}{2}\)
\(C.\sin\left(A+B\right)=\sin C\)
\(D.\cos\dfrac{A+B+2C}{2}=\sin\dfrac{C}{2}\)
Cho tam giác ABC, biết \(sin\dfrac{A}{2}.cos^3\dfrac{B}{2}=sin\dfrac{B}{2}.cos^3\dfrac{A}{2}\)
Chứng minh rằng tam giác ABC cân
sinA/2.cos^3(B/2)=sinB/2.cos^3(A/2)
sinA/2.cos(B/2)[ 1 - sin^2B/2]=sinB/2.cos(A/2)[1 -sin^2A/2]
sinA/2.cosB/2 - sinB/2.cosA/2 = 1/2sinA/2.sinB/2[ sinB - sinA]
sin(A-B)/2 = sinA/2.sinB/2 cos(A+B)/2.sin(A-B)/2
sin(A-B)/2[ 1 - sinA/2.sinB/2 cos(A+B)/2] = 0
Vì [1 - sinA/2.sinB/2 cos(A+B)/2] >0
=> sin(A-B)/2 =0
=> A = B