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Question
Let `f(x) = {{:(0",", "if" x < 0),(x^2",", "if" 0 ≤ x ≤ 2),(4",", "if" x ≥ 2):}`. Graph the function. Show that f(x) continuous on `(- oo, oo)`
Solution
`f(x) = {{:(0",", "if" x < 0),(x^2",", "if" 0 ≤ x ≤ 2),(4",", "if" x ≥ 2):}`
Let y = f(x)
| x | – 1 | 0 | 1 | 2 | 3 | 4 | 5 |
| f(x) | 0 | 0 | 1 | 4 | 4 | 4 | 4 |
When x < 0
We have y = 0
When 0 ≤ x < 2
We have y = x2
When x ≥ 2
We have y = 4
Case (i) If x < 0
i.e. `(-oo, 0)` then f(x) = 0
Which is clearly continuous in `(-oo, 0)`.
Case (ii) If 0 ≤ x < 2
i.e. (0 , 2)
Let x0 be an arbitrary point in (0, 2)
`lim_(x -> x_0) f(x) = lim_(x -> x_0) x^2 = x_0^2`
`f(x_0) = x_0^2`
∴ `lim_(x -> x_0) f(x) = f(x_0)`
Hence f(x) is continuous at x = x0.
Since x = x0 is an arbitrary f(x) is continuous at all points of (0, 2).
Case (iii) x ≥ 2
i.e. `(2, oo)`
f(x) = 4 which is clearly continuous in `(2, oo)`
Case (iv) At x = 2,
`lim_(x -> 2^-) f(x) = lim_(x -> 2^-) x^2` = 22 = 4
`lim_(x -> 2^-) f(x) = lim_(x -> 2^-) x^2` = 22 = 4
`lim_(x -> 2^+) f(x) = lim_(x -> 2^-) f(x)` = 4
`lim_(x -> 2) f(x)` = 4
f(2) = 4
∴ f(x) is continuous at x = 2.
∴ Using case (i) case (ii) case (iii) and case (iv).
We have f(x) is continuous at all points of R.
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