How do you use the limit definition of a derivative to take the derivative of $f (x) = sin (n x)$ $f(x) = sin(nx)$ for a constant n?

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How do you use the limit definition of a derivative to take the derivative of $f (x) = sin (n x)$ $f(x) = sin(nx)$ for a constant n?

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Answer 1 · 2015-06-30T18:19:42

It is much like using the limit definition to find the derivative of $sin x$ $sinx$ .

Explanation:

Many of the details are like finding the derivative of $sin x$ $sinx$

but instead of $lim_(hrarr0)sinh/h = 1$

we need $lim_(hrarr0)sin(nh)/h = lim_(hrarr0)n(sin(nh)/(nh)) = n$

$f'(x) = lim_(hrarr0)(f(x+h)-f(x))/h$

$= lim_(hrarr0)(sinn(x+h)-sinnx)/h$

$= lim_(hrarr0)(sin(nx+nh)-sinnx)/h$

$= lim_(hrarr0)(sin(nx)cos(nh)+cos(nx)sin(nh)-sin(nx))/h$

$= lim_(hrarr0)((sin(nx)cos(nh)-sin(nx))/h+(cos(nx)sin(nh))/h)$

$= lim_(hrarr0)(sin(nx)(cos(nh)-1)/h +cos(nx)sin(nh)/h)$

Now, we need: as $hrarr0$ , we get $nh rarr0$ , so we have:

$lim_(hrarr0)(cos(nh)-1)/h = nlim_(hrarr0)(cos(nh)-1)/(nh) = n*0 =0$

and
$lim_(hrarr0)sin(nh)/h = n lim_(hrarr0)(sin(nh)/(nh)) = n*1 = n$

So we can continue:

$lim_(hrarr0)(sin(nx)(cos(nh)-1)/h +cos(nx)sin(nh)/h) =sin(nx)*0+cos(nx)*n$

$= ncosnx$

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How do you use the limit definition of a derivative to take the derivative of $f (x) = sin (n x)$ $f(x) = sin(nx)$ for a constant n?

1 Answer

Explanation:

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How do you use the limit definition of a derivative to take the derivative of f(x) = sin(nx)f(x)=sin(nx)f(x) = sin(nx) for a constant n?

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Explanation:

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How do you use the limit definition of a derivative to take the derivative of $f (x) = sin (n x)$ $f(x) = sin(nx)$ for a constant n?