Answer to Question #203435 in Geometry for Nestor Freeman

Question #203435

A particle moves so that its position vector is given by r =cosωti+sinωtj. where ω is a constant.

a)Show that the velocity v of the particle is perpendicular to r, and the velocity acceleration a is directed towards the origin and has magnitude proportional to the distance from the origin.

b) Show also that r × r is a constant vector.

Expert's answer

Given "\\overrightarrow{r}= cos\\omega \\hat{x} + sin\\omega\\hat{y} ........(1)"

Velocity, "\\overrightarrow{v} = \\dfrac{d\\overrightarrow{r}}{dt}= - \\omega sin\\omega t\\hat{x} + \\omega cos\\omega\\hat{y}.........(2)"

Acceleration, "\\overrightarrow{a} = \\dfrac{d^2\\overrightarrow{r}}{dt^2} = -\\omega^2 cos\\omega t \\hat{x} - \\omega^2sin\\omega t \\hat{y} = -\\omega^2\\overrightarrow{r} ............(3)"

Now using (1),(2) and (3) we get, "\\overrightarrow{v}.\\overrightarrow{r} =0" Its indicate that velocity is perpendicular to "\\overrightarrow{r}" and "\\overrightarrow{a}.\\overrightarrow{r}\\neq 0" So acceleration is neither parallel nor perpendicular to "\\overrightarrow{r}"

The equation (3) indicates the acceleration is directed toward the origin.

(b) Ans:-

"\\overrightarrow{r}= cos\\omega \\hat{x} + sin\\omega\\hat{y}"

"|\\overrightarrow{r}|=\\sqrt{(Cos\\omega)^2+(Sin\\omega)^2}=1"

As we know that the angle between itself will be "0\\degree"

Hence,

"\\overrightarrow{r}\\times \\overrightarrow{r}= |\\overrightarrow{r}| .|\\overrightarrow{r}|.Sin0\\degree=0"

Hence, "\\overrightarrow{r}\\times \\overrightarrow{r}" is a constant vector.