Question

An object's two dimensional velocity is given by `v(t) = ( e^t-2t , t-4e^2 )`. What is the object's rate and direction of acceleration at `t=5`?

Answer 1

The rate of acceleration is `=146.4ms^-1` in the direction of `0.4^@` anticlockwise from the x-axis

Explanation:

The acceleration is the derivative of the velocity

`v(t)=(e^t-2t, t-4e^2)`

`a(t)=v'(t)=(e^t-2, 1)`

When `t=5`

`a(5)=(e^5-2, 1)`

`a(5)=(146.4,1)`

The rate of acceleration is

`||a(5)||=sqrt(146.4^2+1^2)=146.4ms^-1`

The angle is

`theta=arctan(1/146.4)=0.4^@` anticlockwise from the x-axis

Answer 2

Please see below.

Explanation:

As velocity is given by `v(t)=(e^t-2t,t-4e^2)`

accelaration is `(dv)/(dt)=d/(dt)(e^t-2t)hati+d/(dt)(t-4e^2)hatj`

or `(e^t-2)hati+hatj`

Note that `-4e^2` is a constant hence its differential is `0`.

and at `t=5`, accelaration is `(e^5-2)hati+hatj`

Its magnitude is `sqrt((e^5-2)^2+1)=sqrt((148.4132-2)^2+1)`

= `146.417`

and direction is `tan^(-1)(1/(e^5-2))=tan^(-1)(1/146.4132)`

= `0.39^@`