Draw a graph of xcos(1/x)

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In summary, the question is asking how to draw the graph of xcos(1/x) without using a calculator. The attempt at a solution involves differentiating the equation using the product rule, but the problem lies in actually drawing the graph. The solution may involve using the properties of cos(1/x), such as its behavior at infinity and near 0.
  • #1
JamesBwoii
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Homework Statement


Draw a graph of xcos(1/x)2. The attempt at a solution

I've differentiated the equation using the product rule.

This got me to:

cos(1/x) + sin(1/x)/x

What I don't know how to do is actually go about drawing the graph. This is also a past paper question for an exam where I won't be allowed calculators.

Thanks!
 
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  • #2
JamesBwoii said:

Homework Statement


Draw a graph of xcos(1/x)


2. The attempt at a solution

I've differentiated the equation using the product rule.

This got me to:

cos(1/x) + sin(1/x)/x

What I don't know how to do is actually go about drawing the graph. This is also a past paper question for an exam where I won't be allowed calculators.

Thanks!

Calculators won't help you with that.

(1) [itex]-x \leq x\cos(1/x) \leq x[/itex].
(2) [itex]\cos(1/x) \to 1[/itex] as [itex]x \to \infty[/itex].
(3) How fast does [itex]\cos(1/x)[/itex] oscillate at [itex]x \to 0[/itex]?
 

1. What is the shape of the graph of xcos(1/x)?

The graph of xcos(1/x) is a continuous, oscillating curve. As the value of x approaches 0, the curve becomes more and more compressed, with infinitely many oscillations.

2. What are the x and y intercepts of the graph of xcos(1/x)?

The x intercepts occur at 0 and all points where x = 1/(2nπ) for n = 1, 2, 3, ... The y intercepts occur at 1 and -1.

3. Is the graph of xcos(1/x) symmetrical?

No, the graph of xcos(1/x) is not symmetrical. It has a vertical asymptote at x = 0, which creates a discontinuity in the curve.

4. What is the domain and range of the graph of xcos(1/x)?

The domain of the graph is all real numbers except 0. The range is the set of all real numbers between -1 and 1, inclusive.

5. How does the graph of xcos(1/x) change as x approaches 0?

As x approaches 0, the graph of xcos(1/x) becomes more and more compressed, with infinitely many oscillations. The curve also becomes steeper, approaching the vertical asymptote at x = 0.

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