How Sin (A+B) × Sin (A-B) = Sin²A - Sin²B ?
How Sin (A+B) × Sin (A-B) = Sin²A - Sin²B ? ➡ Sin(A+B) = SinA CosB + CosA SinB ➡ Sin(A-B) = SinA CosB - CosA SinB
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How Cos 2θ = (1 - tan²θ)/ (1 + tan²θ) ?
How Cos 2θ = (1 - tan²θ)/ (1 + tan²θ) ? ➡ Cos(2A) = Cos²A - Sin²A
How tan (3A) = (3tanA - tan³A)/(1-3tan²A)?
How tan (3A) = (3tanA - tan³A)/(1-3tan²A)? 👉 How tan(A+B) = (tanA + tanB)/(1- tanA tanB ) ?
How tan (2A) = (2 tan A)/ (1- tan²A) ?
How tan (2A) = (2 tan A)/ 1- tan²A? ➡ How tan(A+B) = (tanA + tanB)/(1- tanA tanB ) ?
How sin 3A = 3SinA - 4Sin³A?
How sin 3A = 3SinA - 4Sin³A? Sin(3A) = Sin(2A +A) As we know that Sin(A+B) = SinA CosB + CosA SinB then, ➡Sin(2A + A) = Sin2A CosA + Cos2A SinA also, { Sin(2A) = 2 SinA CosA } .........(1) { Cos(2A) = Cos²A - Sin²A } ......(2) Put the value of (1) and (2) in formula ➡Sin(2A + A) = (2 SinA CosA)CosA + (Cos²A - Sin²A)SinA also, Cos²A = 1 - Sin²A ➡Sin(2A + A) = 2 SinA Cos²A + (Cos²A - Sin²A)SinA ➡Sin(2A + A) = 2 SinA (1- Sin²A) + (1- Sin²A -Sin²A) SinA ➡Sin(2A + A) = 2 SinA (1- Sin²A) + (1- 2Sin²A) SinA ➡Sin(2A + A)= 2 SinA - 2Sin³A + SinA - 2Sin³A ➡ Hence, Sin(2A + A)= 3SinA - 4Sin³A
How 1 + Cos (2A) = 2 Cos²A ?
How Cos (2A) = 2 Cos²A - 1 ? As we know that ➡ Cos(2A) = Cos²A - Sin²A .......(1) Also Sin²A + Cos²A = 1 or Sin²A = 1 - Cos²A......[put in (1) eq.] ➡Cos (2A) = Cos²A - (1 - Cos²A) = Cos²A - 1 + Cos²A Hence, Cos (2A) = 2 Cos²A - 1 or 1 + Cos(2A) = 2 Cos²A ➡ If angle is half i.e. θ = A then, Cos (A) = 2 Cos²(A/2) - 1 or 1 + Cos(A) = 2 Cos²(A/2)
How 1 - Cos(2A) = 2Sin²A?
How 1 - Cos2A = 2 sin²A? As we know that, Cos(2A) = Cos²A - Sin²A.........(1) ........👉{ Cos(2A) = Cos²A - Sin²A } also, Sin²A + Cos²A = 1 or Cos²A = 1- Sin²A......(2) ...............👉{ How Sin²θ + Cos²θ = 1?? } put eq. (2) into eq.(1) Cos(2A) = 1 - Sin²A - Sin²A Hence, Cos(2A) = 1 - Sin²A also, 1 - Cos2A = 2 sin²A If angle(ϴ) is halved, then, CosA = 1 - Sin²(A/2) or 1 - CosA = 2 sin²(A/2)
How Cos(2A) = Cos²A - Sin²A or Cos(A) = Cos²(A/2) - Sin²(A/2) ?
Derivation of Cos(2A) = Cos²A - Sin²A or Cos(A) = Cos²(A/2) - Sin²(A/2) ? As we know that, Cos(A+B) = CosA CosB - SinA SinB ........👉👉{ Cos(A+B) = CosA CosB - SinA SinB } put B= A we get, ⇒Cos(A+A) = CosA CosA - SinA SinA ⇒Hence, Cos(2A) = Cos²A - Sin²A ⇒If angle will be halved i.e. θ = A Then, ⇒ Cos(A) = Cos²(A/2) - Sin²(A/2)
How Sin(2A) = 2SinA CosA or Sin(A) = 2Sin(A/2) Cos(A/2) ?
Derivation of Sin(2A) = 2 SinA CosA or Sin(A) = 2Sin(A/2) Cos(A/2)? As we know that, ⇒Sin(A+B) = SinA CosB + CosA SinB 👉👉( Sin(A+B) = SinA CosB + CosA SinB ) put B= A then, ⇒Sin(A+A) = SinA CosA + CosA SinA ⇒Sin(2A) = SinA CosA + SinA CosA Hence, Sin(2A) = 2SinA CosA ⇒If angle will be halfed i.e. θ = A ⇒Hence, Sin(A) = 2Sin(A/2) Cos(A/2)
How tan(π/4-θ) = (1−tanθ)/(1+tanθ) ?
Derivation of tan(π/4-θ) = (1−tanθ)/(1+tanθ) As, tan(π/4+θ) = (1+tanθ)/(1-tanθ) ...........👉👉 Derivation of tan(π/4+θ) = (1+tanθ)/(1-tanθ) {Put θ= -θ} tan(π/4-θ) = [1 + tan(-θ)] /[1- tan(-θ)] { As tan(-θ) = -tanθ } Hence, tan(π/4-θ) = (1-tanθ)/(1+tanθ)
How tan(π/4+θ) = (1+tanθ)/(1-tanθ) ?
Derivation of tan(π/4+θ) = (1+tanθ)/(1-tanθ) As, tan(A+B) = (tanA - tanB)/(1- tanA tanB) 👉 Derivation of tan(A+B) = (tanA + tanB)/(1- tanA tanB) { Put A = π/4 and B= θ } tan(π/4+θ) = [tan(π/4) + tanθ] /[1- tan(π/4)tanθ] As tan(π/4) = 1.......(i.e. tan 45° = 1) Hence, tan(π/4+θ)= (1+tanθ)/(1-tanθ)
How tan(A-B) = (tanA - tanB)/(1+ tanA tanB) ?
Derivation of tan(A-B) = (tanA - tanB)/(1+ tanA tanB) 👉👉 Derivation of tan(A+B) = (tanA + tanB)/(1- tanA tanB) 👉👉 Derivation of Sin(A+B) = SinA CosB + CosA SinB 👉👉 Derivation of Cos(A+B) = CosA CosB - SinA SinB
How tan(A+B) = (tanA + tanB)/(1- tanA tanB) ?
Derivation of tan(A+B) = (tanA + tanB)/(1- tanA tanB ) 👉👉 Derivation of Sin(A+B) = SinA CosB + CosA SinB 👉👉 Derivation of Cos(A+B) = CosA CosB - SinA SinB
(Trigonometry Value Table) Values of Trigonometric ratios
👉 These are the values of trigonometric Ratios:- 👆 Picture showing values of sinθ,cosθ,tanθ where θ is the some angle. From the table values of Cosecant (Cosec), Secant(sec) and Cotangent (Cot) can be determined. As, Cosecθ = 1/Sinθ Secθ = 1/cosθ and Cotθ = 1/tanθ or cosθ/sinθ 👉 What is Trigonometry? 👉 What is a right angled triangle?
Trigonometric Ratios
Trigonometric Ratios :- There are only six possible ratios of sides of a right angled triangle. In Trigonometry, different names are given to those ratios of right angled triangle w.r.t. angle ∠θ These are the ratios:- {1}. P/H :- Sine (sin) {2}. B/H :- Cosine (Cos) {3}. P/B :- tangent (tan) {4}. H/P :- Cosecant (cosec) {5}. H/B :- Secant (Sec) {6}. B/P :- Cotangent (Cot) where P :- Perpendicular B:- Base H:- Hypotenuse source: Wikipedia Some simple identities : ⇒tanϴ = 1/ cotϴ or sinϴ/ cosϴ ⇒Cosecϴ = 1/ sinϴ ⇒Secϴ = 1/ cosϴ ⇒Cotϴ = 1 / tanϴ or cosϴ/ sinϴ 👉👉 What is Trigonometry? 👉👉 Trigonometry Table (Values of Trigonometric ratios) 👉👉 How Sin²θ + Cos²θ = 1?
What is Trigonometry?
What is Trigonometry? Trigonometry is a branch of mathematics that studies relationships between side lengths and angles of triangles. 👉👉 What is a Right angled triangle?
How Cos(A-B) = CosA CosB + SinA SinB ?
Derivation of Cos(A-B) = CosA CosB + SinA SinB 👉👉 Derivation of Cos(A+B) = CosA CosB - SinA SinB
