Lagrange’s mean value theorem states that if a function f(x) is continuous on a closed interval [a, b] and differentiable on the open interval (a, b), then there is at least one point x=c on this interval, such that

f(b)−f(a)=f′(c)(b−a)

This theorem is also known as First Mean Value Theorem.

f(x) = x² – 1 on [2, 3]

Every polynomial function is continuous everywhere on (−∞, ∞) and differentiable for all arguments.

Here, f(x) is a polynomial function. So it is continuous in [2, 3] and differentiable in (2, 3). So both the necessary conditions of Lagrange’s mean value theorem is satisfied.

f(x) = x² – 1

Differentiating with respect to x:

f’(x) = 2x

For f’(c), put the value of x=c in f’(x):

f’(c)= 2c

For f(3), put the value of x=3 in f(x):

f(3)= (3)² – 1

= 9 – 1

= 8

For f(2), put the value of x=2 in f(x):

f(2)= (2)² – 1

= 4 – 1

= 3

∴ f’(c) = f(3) – f(2)

⇒ 2c = 8 – 3

⇒ 2c = 5

Hence, Lagrange’s mean value theorem is verified.