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Are all continuous functions bijective?

Are all continuous functions bijective?

There doesn’t exist a continuous function f on R such that f|R∖Q:R∖Q→f(R∖Q) is a bijection and f|Q:Q→f(Q) is not a bijection. Hence, if f is a continuous function on R and f|R∖Q is a bijection, then f|Q must be a bijection too.

Are strictly increasing function bijective?

Bijective means you can mirror across the line y=x and it will still be a function, that is its inverse is defined on the domain. But if the function has the same value for two points (is not strictly increasing or decreasing) then the inverse is not defined on the domain, it therefore is not bijective.

How do you prove a function is strictly decreasing?

The derivative of a function may be used to determine whether the function is increasing or decreasing on any intervals in its domain. If f′(x) > 0 at each point in an interval I, then the function is said to be increasing on I. f′(x) < 0 at each point in an interval I, then the function is said to be decreasing on I.

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How do you show that a function is continuous everywhere?

A function f(x) is said to be continuous everywhere (or just continuous) if, for all x = a in its domain, f(x) is continuous at x = a.

How do you show that a function is continuous?

Saying a function f is continuous when x=c is the same as saying that the function’s two-side limit at x=c exists and is equal to f(c).

Is every strictly decreasing function Surjective?

A function that is strictly increasing or strictly decreasing on its domain is injective. The function is surjective. Let x be the number y1⁄5 in the domain R. Then f(x) = y.

Is every increasing function onto?

No, every increasing function is not indeed one-one. This will remain stagnant from x1 to x2, all the values between x1 and x2 will have same value.

How do you show whether a function is increasing or decreasing?

How can we tell if a function is increasing or decreasing?

  1. If f′(x)>0 on an open interval, then f is increasing on the interval.
  2. If f′(x)<0 on an open interval, then f is decreasing on the interval.
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What is a strictly increasing function?

A function f:X→R defined on a set X⊂R is said to be increasing if f(x)≤f(y) whenever x. If the inequality is strict, i.e., f(x)

How do you prove that a function is one to one increasing?

If some horizontal line intersects the graph of the function more than once, then the function is not one-to-one. If no horizontal line intersects the graph of the function more than once, then the function is one-to-one. ∀x1, ∀x2, x1 = x2 implies f(x1) = f(x2).