A cyclist is riding with a speed of 27 km-h- As he approaches a circular turn on the road of radius 80 m- he applies brakes and reduces his speed the constant rate of 0-50 m-s every second- What is the magnitude and direction of the net acceleration of the cyclist on the circular turn -

Question

Toppr Admin · Accepted Answer

Net acceleration is due to braking and centripetal acceleration

Due to Braking,
$a_{T} = 0.5 m / s^{2}$
Speed of the cyclist, $v = 27 k m / h = 7.5 m / s$
Radius of the circular turn, $r = 80 m$
Centripetal acceleration is given as:
$a_{c} = \frac{V^{2}}{r}$

$= ({7.5}^{2}) / 80 = 0.70 m / s^{2}$
Since the angle between $a_{c}$ and $a_{T}$ is 90⁰, the resultant acceleration a is given by:
$a = (a_{c}^{2} + a_{T}^{2})^{1 / 2}$

$a = ({0.7}^{2} + {0.5}^{2})^{1 / 2} = 0.86 m / s^{2}$

$t a n θ = \frac{a_{c}}{a_{T}}$
where $θ$ is the angle of the resultant with the direction of the velocity.
$t a n θ = \frac{0.7}{0.5} = 1.4$

$θ = t a n^{- 1} (1.4) = {54.56}^{0}$

A cyclist is riding with a speed of 27 km/h. As he approaches a circular turn on the road of radius 80 m, he applies brakes and reduces his speed at the constant rate of 0.50 m/s every second. What is the magnitude and direction of the net acceleration of the cyclist on the circular turn ?