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प्रश्न
Does there exist a function which is continuos everywhere but not differentiable at exactly two points? Justify your answer?
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उत्तर
Let the function be f(x) = |x − 1| + |x − 2|
We redefine f(x) as:
This is continuous at all x ∈ R but not differentiable at x = 1, 2.
f(x) = `{(-(x - 1) - (x - 2)", if" x<1),((x - 1) - (x - 2)", if" 1<= x <=2), ((x - 1) + (x - 2)", if" x>2):}`
i.e., f(x) = `{(-2x + 3", if" x<1),(1", if" 1<= x <=2), ((2x - 3)", if" x>2):}`
f(x) is clearly continuous at all x except possibly at 1, 2.
At x = 1
`lim_(x->1^-)` f(x) = `lim_(h->0)` (−2(1 − h) + 3)
= −2 + 3
= 1
`lim_(x->1^+)` f(x) = `lim_(x->^+)` (1) = 1
Also, f(1) = 1
Thus, `lim_(x->1^-)` f(x) = `lim_(x->1^+) `f(x) = f(1)
Hence, f(x) is continuous at x = 1.
At x = 2
`lim_(x->2^-)` f(x) = `lim_(x->2^-)` 1 = 1
`lim_(x->2^+)` f(x) = `lim_(x->2^+)` (2x − 3)
`lim_(h->0)` (2(2 + h) − 3)
= 2(2) − 3
= 1
Also, f(2) = 1
Thus `lim_(x->2^-)` f(x) = `lim_(x->2^+)` f(x) = f(2)
Hence, f(x) is continuous at x = 2.
Hence, 'f' is continuous at all x ∈ R.
Now, f'(x) = `{(-2", if" x<1),(0", if" 1< x <2), (2", if" x>2):}`
Derivability at x = 1
Lf'(1) = `lim_(h->0) (f (1-h) - f (1))/(-h)`
= `lim_(h->0) (-2 (1 - h) + 3 - 1)/-h`
= `lim_(h->0) (2h)/-h`
= `lim_(h->0)` (−2)
= −2
Lf'(2) = `lim_(h->0) (f(2 - h) - f (2))/h = lim_(h->0) (1 - 1)/h = 0`
Thus, Lf'(1) ≠ Rf'(1)
= 'f' is not derivable.
Derivability at x = 2
Lf'(2) = `lim_(h->0) (f (2 - h) - f(2))/h`
= `lim_(h->0) (1 - 1)/h`
= 0
Rf'(2) = `lim_(h->0) (f (2 + h) - f (2))/h`
= `lim_(h->0) (2 (2 + h) - 3 - 1)/h`
= `lim_(h->0^+) (2h)/h`
= `lim_(h->0^+)` 2
= 2
⇒ Lf'(2) ≠ Rf'(2)
⇒ f is not derivable at x = 2
Hence f(x) = |x − 1| + |x − 2| is continuous everywhere and differentiable at all x ∈ R except at 1, 2.
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