Prove the identity: 2(sin6 x + cos6 x) – 3(sin4 x + cos4 x) +

1.	Prove the identity: 2(sin6 x + cos6 x) – 3(sin4 x + cos4 x) + 1 = 0
Answer» Let us consider the LHS 2(sin⁶ x + cos⁶ x) – 3(sin⁴ x + cos⁴ x) + 1 As we know, (a + b)² = a² + b² + 2ab a³ + b³ = (a + b) (a² + b² – ab) Therefore, 2(sin⁶ x + cos⁶ x) – 3(sin⁴ x + cos⁴ x) + 1 = 2{(sin² x)³ + (cos² x)³} – 3{(sin² x)² + (cos² x)²} + 1 = 2{(sin² x + cos² x) (sin⁴ x + cos⁴ x – sin² x cos² x} – 3{(sin² x)² + (cos² x)² + 2sin² x cos² x – 2sin² x cos² x} + 1 = 2{(1) (sin⁴ x + cos⁴ x + 2 sin² x cos² x – 3 sin² x cos² x} – 3{(sin² x + cos² x)² – 2sin² x cos² x} + 1 As we know, sin² x + cos² x = 1 = 2{(sin² x + cos² x)² – 3 sin² x cos² x} – 3{(1)² – 2sin² x cos² x} + 1 = 2{(1)² – 3 sin² x cos² x} – 3(1 – 2sin² x cos² x) + 1 = 2(1 – 3 sin² x cos² x) – 3 + 6 sin² x cos² x + 1 = 2 – 6 sin² x cos² x – 2 + 6 sin² x cos² x = 0 = RHS Thus proved.

Prove the identity: 2(sin6 x + cos6 x) – 3(sin4 x + cos4 x) + 1 = 0

Answer»

Let us consider the LHS

2(sin⁶ x + cos⁶ x) – 3(sin⁴ x + cos⁴ x) + 1

As we know, (a + b)² = a² + b² + 2ab

a³ + b³ = (a + b) (a² + b² – ab)

Therefore,

2(sin⁶ x + cos⁶ x) – 3(sin⁴ x + cos⁴ x) + 1 = 2{(sin² x)³ + (cos² x)³} – 3{(sin² x)² + (cos² x)²} + 1

= 2{(sin² x + cos² x) (sin⁴ x + cos⁴ x – sin² x cos² x} – 3{(sin² x)² + (cos² x)² + 2sin² x cos² x – 2sin² x cos² x} + 1

= 2{(1) (sin⁴ x + cos⁴ x + 2 sin² x cos² x – 3 sin² x cos² x} – 3{(sin² x + cos² x)² – 2sin² x cos² x} + 1

As we know, sin² x + cos² x = 1

= 2{(sin² x + cos² x)² – 3 sin² x cos² x} – 3{(1)² – 2sin² x cos² x} + 1

= 2{(1)² – 3 sin² x cos² x} – 3(1 – 2sin² x cos² x) + 1

= 2(1 – 3 sin² x cos² x) – 3 + 6 sin² x cos² x + 1

= 2 – 6 sin² x cos² x – 2 + 6 sin² x cos² x

= 0

= RHS

Thus proved.