Rolle's theorem is not applicable to the function f(x) = for because
f is continuous for
f is not derivable for x = 0
f(- 2) = f(2)
f is not a constant function
B.
f is not derivable for x = 0
Since,
This function is not derivable at x = 0, therefore Rolle's theorem is not applicable.
A function f(x) is defined as follows for real x
Then,
f (x) is not continuous at x = 1
f (x) is continuous but not differentiable at x = 1
f(x) is both continuous and differentiable at x = 1
None of the above
Select the correct statement from (a), (b), (c), (d). The function f(x) = xe1 - x
strictly increases in the interval
increases in the interval (0, )
decreases in the interval (0, 2)
strictly decreases in the interval (1, )
If , then
f(x) is continuous and differentiable for all x in its domain
f(x) is continuous for all x in its domain but not differentiable at x = ± 1
f(x) is neither continuous nor differentiable at x = ± 1
None of the above