A vehicle of mass m starts moving along ...

A vehicle of mass `m` starts moving along a horizontal circle of radius R such that its speed varies with distance s covered by the vehicle as `c=Ksqrts`, where K is a constant. Calculate:
a. Tangential and normal force on vehicle as fucntion of s.
b. Distance s in terms of time t.
c. Work done by the resultant force in first t seconds after the beginning of motion.

Similar Questions

Explore conceptually related problems

A particle of mass m moves in a circle of radius R in such a way that its speed (v) varies with distance (s) as v = a sqrt(s) where a is a constant. Calcualte the acceleration and force on the particle.

A particle of mass m moves along a horizontal circle of radius R such that normal acceleration of particle varies with time as a_(n)=kt^(2). where k is a constant. Tangential force on particle at t s is

A particle of mass m moves along a horizontal circle of radius R such that normal acceleration of particle varies with time as a_(n)=kt^(2). where k is a constant. Total force on particle at time t s is

A particle of mass m impves along a horzontal circle of radius R such that normal acceleration of particle varies with time as a_(n)=kt^(2). where k is a constant. Tangential force on particle at t s is

A particle of mass m impves along a horzontal circle of radius R such that normal acceleration of particle varies with time as a_(n)=kt^(2). where k is a constant. Total force on particle at time t s is

A particle of mass m moves along a horizontal circle of radius R such that normal acceleration of particle varies with time as a_(n)=kt^(2). where k is a constant. Power developed by total at time T is

Similar Questions

Recommended Questions