What is the arclength of (lnt/t,lnt) on t in [1,2]?

1 Answer
Steve M
Aug 3, 2017

Approximate arc length via a numerical method is:

0.79 (2dp)

Explanation:

The arc length of a curve:

vec(r) (t) = << x(t), y(t) >>

Over an interval [a,b] is given by:

L = int_a^b \ || vec(r) (t) || \ dt
\ \ = int_a^b \ sqrt(x'(t)^2 +y'(t)^2) \ dt

So, for the given curve:

vec( r )(t) = << lnt/t,lnt >> \ \ \ t in [1,2]

Differentiating the components wrt t we get:

x'(t) = ( (t)(d/dt lnt) - (lnt)(d/dt t) ) / (t^2)
" " = ( (t)(1/t) - (lnt)(1) ) / (t^2)
" " = (1-lnt)/t^2

y'(t) = 1/t

So, the arc length is given by:

L = int_1^2 \ sqrt( x'(t)^2+y'(t)^2 ) \ dt
\ \ = int_1^2 \ sqrt( ((1-lnt)/t^2)^2 + (1/t)^2 ) \ dt
\ \ = int_1^2 \ sqrt( ((1-lnt)/t^2)^2 + 1/t^2 ) \ dt

The integral does not have an elementary antiderivative,and so we evaluate the definite integral al numerically:

L = 0.7890476183035367 ...

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