Examine the differentiability of f, where f is defined by
Given,
…(1)
We need to check whether f(x) is continuous and differentiable at x = 2
A function f(x) is said to be continuous at x = c if,
Left hand limit(LHL at x = c) = Right hand limit(RHL at x = c) = f(c).
Mathematically we can represent it as-
Where h is a very small number very close to 0 (h→0)
And a function is said to be differentiable at x = c if it is continuous there and
Left hand derivative(LHD at x = c) = Right hand derivative(RHD at x = c) = f(c).
Mathematically we can represent it as-
Finally we can state that for a function to be differentiable at x = c
Checking for the continuity:
Now according to above theory-
f(x) is continuous at x = 2 if -
∴ LHL = 
⇒ LHL = 
{using equation 1}
⇒ LHL = 
∴ LHL = (3-h) = 3
∴ LHL = 3 …(2)
Similarly,
RHL = 
⇒ RHL = 
{using equation 1}
⇒ RHL = 
∴ RHL = 3+0 = 3 …(3)
And, f(2) = 1 + 2 = 3 {using equation 1} …(4)
From equation 2,3 and 4 we observe that:
∴ f(x) is continuous at x = 2. So we will proceed now to check the differentiability.
Checking for the differentiability:
Now according to above theory-
f(x) is differentiable at x = 2 if -
∴ LHD = 
⇒ LHD = 
{using equation 1}
⇒ LHD = 
∴ LHD = 1 …(5)
Now,
RHD = 
⇒ RHD = 
{using equation 1}
⇒ RHD = 
∴ RHD = -1 …(6)
Clearly from equation 5 and 6,we can conclude that-
(LHD at x=2) ≠ (RHD at x = 2)
∴ f(x) is not differentiable at x = 2