Trigonometric Identities Practice Questions (original) (raw)

Last Updated : 23 Jul, 2025

Trigonometry is an important part of mathematics. It involves its own functions sine, cosine, etc. They are essential tools for simplifying expressions and solving trigonometric equations.

In this article, we will learn about trigonometric identities, their important formulas, and how to solve related equations.

What are Trigonometric Identities?

Trigonometric identities are mathematical equations involving trigonometric functions (like sine, cosine, and tangent) that hold for all values of the variables within their domains. They are essential tools for simplifying expressions and solving trigonometric equations.

Important Formulas

Various important trigonometric identities are:

**Inverse Trigonometry Formulas

Trigonometric Identities Practice Questions

**Question 1: Prove that (sin 4 θ – cos 4 θ +1) cosec 2 θ = 2

**Solution:

L.H.S. = (sin4θ – cos4θ +1) cosec2θ

= [(sin2θ – cos2θ) (sin2θ + cos2θ) + 1] cosec2θ

Using the identity sin2A + cos2A = 1,

= (sin2θ – cos2θ + 1) cosec2θ

= [sin2θ – (1 – sin2θ) + 1] cosec2θ

= 2 sin2θ cosec2θ

= 2 sin2θ (1/sin2θ)

= 2

= RHS

**Question 2: Solve expression: cosec 2 θ - cot 2 θ.

**Solution:

1 + cot2θ = cosec2θ

cosec2θ-cot2θ = 1+cot2θ-cot2θ

= 1 = R.H.S.

**Question 3: (1 - sin A)/(1 + sin A) = (sec A - tan A) 2

**Solution:

L.H.S = (1 - sin A)/(1 + sin A)

= (1 - sin A)2/(1 - sin A) (1 + sin A),[Multiply both numerator and denominator by (1 - sin A)

= (1 - sin A)2/(1 - sin2 A)

= (1 - sin A)2/(cos2 A), [Since sin2 θ + cos2 θ = 1 ⇒ cos2 θ = 1 - sin2 θ]

= {(1 - sin A)/cos A}2

= (1/cos A - sin A/cos A)2

= (sec A – tan A)2 = R.H.S.

**Question 4: tan 4 θ + tan 2 θ = sec 4 θ - sec 2 θ

**Solution:

L.H.S = tan4 θ + tan2 θ

= tan2 θ (tan2 θ + 1)

= (sec2 θ - 1) (tan2 θ + 1) [since, tan2 θ = sec2 θ – 1]

= (sec2 θ - 1) sec2 θ [since, tan2 θ + 1 = sec2 θ]

= sec4 θ - sec2 θ = R.H.S.

**Question 5: (tan θ + sec θ - 1)/(tan θ - sec θ + 1) = (1 + sin θ)/cos θ

**Solution:

L.H.S = (tan θ + sec θ - 1)/(tan θ - sec θ + 1)

= [(tan θ + sec θ) - (sec2 θ - tan2 θ)]/(tan θ - sec θ + 1), [Since, sec2 θ - tan2 θ = 1]

= {(tan θ + sec θ) - (sec θ + tan θ) (sec θ - tan θ)}/(tan θ - sec θ + 1)

= {(tan θ + sec θ) (1 - sec θ + tan θ)}/(tan θ - sec θ + 1)

= {(tan θ + sec θ) (tan θ - sec θ + 1)}/(tan θ - sec θ + 1)

= tan θ + sec θ

= (sin θ/cos θ) + (1/cos θ)

= (sin θ + 1)/cos θ

= (1 + sin θ)/cos θ = R.H.S

**Question 6: (1 + cos θ)/sin θ + sin θ/(1 + cos θ) = 2 cosec θ

**Solution:

L.H.S = (1 + cos θ)/sin θ + sin θ/(1 + cos θ)

= (1 + cos θ)2/[sin θ(1 + cos θ)] + sin θ2/[sin θ(1 + cos θ)]

= [(1 + cos θ)2 + sin θ2]/[sin θ(1 + cos θ)]

= [1 + 2 cos θ + cos2 θ + sin2 θ]/[sin θ(1 + cos θ)]

= [1 + 2 cos θ + 1]/[sin θ(1 + cos θ)]; [since cos2 θ + sin2 θ = 1]

= [2 + 2 cos θ]/[sin θ(1 + cos θ)]

= 2(1 + cos θ)/[sin θ(1 + cos θ)]

= 2/sin θ

= 2 cosec θ = R.H.S. (Proved)

**Question 7: Prove cosθ/(1+sinθ) = (1-sinθ)/cosθ.

**Solution:

cosθ/(1+sinθ){(1-sinθ)/(1-sinθ)} {multiplying and dividing by 1-sinθ on LHS}

= cosθ(1-sinθ)/1-sin2θ

= cosθ(1-sinθ)/cos2θ

= 1-sinθ/cosθ = R.H.S.

Worksheet: Trigonometric Identities

**Problem 1: Prove it sin 2 θ + cos 2 θ = 1.

**Problem 2: Prove it tan 2 θ = sec 2 θ – 1.

**Problem 3: Prove it sin(x+y) = sin(x)cos(y)+cos(x)sin(y).

**Problem 4: Prove it cos(x+y) = cos(x)cos(y)–sin(x)sin(y).

**Problem 5: Prove that (cos A – sin A + 1)/ (cos A + sin A – 1) = cosec A + cot A, using the identity cosec 2 A = 1 + cot 2 A.

**Problem 6: Prove it sin(x–y) = sin(x)cos(y)–cos(x)sin(y).

**Problem 7: Prove it cos(x–y) = cos(x)cos(y) + sin(x)sin(y).

**Problem 8: If a cos 3 α + 3a cos α sin 2 α = m and a sin 3 α + 3a cos 2 α sin α = n, then find (m + n) 2/3 + (m – n) 2/3 .

**Problem 9: Prove it cos(2x) = 2cos 2 (x)-1 = 1–2sin 2 (x).

**Problem 10: Prove it Sin 3x = 3sin x – 4sin 3 x.

**Problem 11: Prove it Cos 3x = 4cos 3 x-3cos x.

**Problem 12: Prove that: (cosec A – sin A)(sec A – cos A) = 1/(tan A + cot A).

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