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VOOZH | about |
Trigonometric identities are a set of formulas that can be used to reduce a variety of complex equations that contain trigonometric functions. These identities connect the various trigonometric functions – sine (sin), cosine (cos), tangent (tan), and their reciprocals (cotangent, secant, cosecant).
👁 Trigonometry-IdentitiesIn this article, we will list some of the basic trigonometric identities and solve a few questions based on them. This article will also provide a few unsolved questions to practice.
Below is a list of a few important trigonometric identities:
Important Trigonometric Identities | |
|---|---|
sin2 θ + cos2 θ = 1 | 1 + tan2θ = sec2θ |
cosec2 θ = 1 + cot2 θ | sin 2θ = 2 sinθ cosθ |
sin (A+B) = sin A cos B + cos A sin B | cos 2θ = 1 – 2sin2 θ |
sin (A-B) = sin A cos B – cos A sin B | tan 2θ = (2tanθ)/(1 – tan2θ) |
cos (A+B) = cos A cos B – sin A sin B | sin3θ = 3sinθ − 4sin3θ |
cos (A-B) = cos A cos B + sin A sin B | cos3θ = 4cos3θ − 3cosθ |
tan (A+B) = (tan A + tan B)/(1 – tan A tan B) | tan3θ = (3tanθ − tan3θ )/1 - 3tan2θ |
tan (A-B) = (tan A – tan B)/(1 + tan A tan B) | sinA + sinB = 2 sin (A+B)/2 cos(A-B)/2 |
sinA cosB = [sin(A+B) + sin(A−B)]/2 | cosA + cosB = 2 cos(A+B)/2 cos(A-B)/2 |
cosA cosB = [cos(A+B) + cos(A−B)]/2 | sinA - sinB = 2 cos (A+B)/2 sin(A-B)/2 |
sinA sinB= [cos(A−B) - cos(A+B)]/2 | cosA - cosB = -2 sin(A+B)/2 sin(A-B)/2 |
Problem 1: Find the value of .
Solution:
To simplify this expression, we can find a common denominator:
Expanding the numerator, we get
sin x + sin2 x + cos x + cos2 x
As we know sin2 x + cos2 x = 1, hence the above equation becomes:
sin x + cos x + 1
Hence the value of given expression is:
Problem 2: Prove that sin (45° – a) cos (45° – b) + cos (45° – a) sin (45° – b) = cos (a + b).
Solution:
Let us solve the LHS of the given equation:
By using formula: sin (A + B) = sin A cos B + cos A sin B we get
sin(45° – a) cos (45° – b) + cos (45° – a) sin (45° – b) = sin [(45°– a) + (45° – b)]
= sin [90° – (a + b)]
As sin (90° – θ) = cos θ, hence
sin [90° – (a + b)] = cos (a + b)
= R. H. S
∴ LHS = RHS [Hence Proved]
Problem 3: Show that (tan2 θ + tan4 θ) = (sec4 θ – sec2 θ)
Solution:
Let us take the RHS of the given equation:
We have sec4θ – sec2θ
Take sec2θ common
sec2θ(sec2θ – 1)
We know, sec2θ = 1 + tan2θ, Hence the above equation become:
(1 + tan2θ) (1 + tan2θ – 1)
⇒ (1 + tan2θ) tan2θ
⇒ (tan2θ + tan4θ) = LHS
∴ LHS = RHS [Hence Proved]
Problem 4: Find the value of sin(π/4 - π/6).
Solution:
Given, sin (π/4 - π/6)
By using formula: sin (A – B) = sin A cos B – cos A sin B, we get
sin (π/4 - π/6) = sin π/4 cos π/6 – cos π/4 sin π/6
Since, cos π/4 = sin π/4 = 1/√2, cos π/6 = √3/2, and sin π/6 = 1/2
Putting these values above we get,
sin (π/4 - π/6) = (1/√2) (√3/2) – (1/√2)(1/2)
= (√3 – 1)/2√2
Hence, sin (π/4 - π/6) = (√3 – 1)/2√2
Problem 5: Solve (1 + tan2θ) cos2θ
Solution:
Given, (1 + tan2θ)cos2θ
Since we know 1 + tan2θ = sec2θ Hence the above equation becomes:
sec2θ . cos2θ
⇒ (1/cos2θ) . cos2θ = 1
Hence (1 + tan2θ)cos2θ = 1
Below are some practice problems on trigonometric identities:
P1. Simplify the expression .
P2. Prove the identity
P3. Prove the identity
P4. Simplify the expression
P5. Prove the identity sinx tanx + cosx cotx = 2.
P6. Simplify the expression
P7. Evaluate:
P8. Prove the identity sin2 x + cos2 x = 1
P9. Prove the identity
P10. Simplify the expression
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