Question

What is the instantaneous velocity of an object moving in accordance to `f(t)= (tlnt,e^(2t))` at `t=2`?

Answer 1

Instantaneous velocity of the object is `8.729`

Explanation:

Instantaneous velocity of an object moving in accordance to `f(t)=(tlnt,e^(2t))` at `t=2`, will be given by the value `(dy)/(dx)` at `t=2`.

As the object moves according to parametric form of equation given by `f(t)`,

`(dy)/(dx)=((dy)/(dt))/((dx)/(dt))`

= `(2e^(2t))/(txx1/t+1xxlnt)`

= `(2e^(2t))/(1+lnt)`

and at `t=2`,

`(dy)/(dx)=(2e^2)/(1+ln2)`

= `(2xx7.389)/(1+0.693)`

= `14.778/1.693`

= `8.729`

Hence, instantaneous velocity of the object is `8.729`