Answer:
[tex]\mu = \frac{r (2\pi f)^{2}}{g}[/tex]
Explanation:
[tex]N[/tex] = normal force acting on the coin
Normal force in the upward direction balances the weight of the coin, hence
[tex]N = mg[/tex]
[tex]f[/tex] = frequency of rotation
Angular velocity of turntable is hence given as
[tex]w = 2\pi f[/tex]
[tex]r[/tex] = distance from the axis of rotation
[tex]\mu[/tex] = minimum coefficient of static friction
static frictional force is given as
[tex]f = \mu N\\f = \mu mg[/tex]
The static frictional force provides the necessary centripetal force , hence
Centripetal force = Static frictional force
[tex]m r w^{2} = \mu mg\\r w^{2} = \mu g\\\\\mu = \frac{r w^{2}}{g} \\\mu = \frac{r (2\pi f)^{2}}{g}[/tex]
