A cyclist rides along a circular path in...

A cyclist rides along a circular path in a horizontal plane where the coefficient of friction varies with distance from the centre O of the circular path as `mu = mu_(0)(1-(r)/(R))` where R is the maximum distance up to which the road is rough
Find the radius of the circular path along which the cyclist can ride with maximum velocity. What is this maximum velocity ?

Similar Questions

Explore conceptually related problems

A cyclist rides along the circular path of a circular horizontal plane of radius R, the firctional coefficient being dependent only on distance r from the centre O of the plane as mu = mu_(0) (1 - (r )/(R )) , where mu_(0) is a constant. Find the radius of the circle such that the cyclist can ride with the maximum velocity.

A cyclist rides along the circumference of a circular horizontal plane of radius R , with the friction coefficient mu=mu_(0)(1-(r )/(R )) , where mu_(0) is constant and r is distance from centre of plane O . Find the radius of the circle along which the cyclist can ride with the maximum velocity, what is this valocity?

A car is taking turn on a circular path of radius R. If the coefficient of friction between the tyres and road is mu , the maximum velocity for no slipping is

A particle in a circular motion covers a distance of 0.5 pi r where r is the radius of the circular path. What is the angular displacement ?

The maximum speed of a car on a curved path of radius 'r' and the coefficient of friction mu_(k) is .

When the road is dry and the coefficient of friction is mu , the maximum speed of a car in a circular path is 10 m/s. if the road becomes wet and mu'=(mu)/(2) , what is the maximum speed permitted?

Similar Questions

Recommended Questions