A cyclist starts from the centre O of a circular park of radius 1km, reaches the edge P of the park, then cycles along the PQ circumference and returns to the centre along OQ as shown in fig. If the round trip taken ten minute, the net displacement and average speed of the cyclist (in kilometer and kinetic per hour) is

A cyclist starts from the centre O of a circular park of radius 1km, reaches the edge P of the park, then cycles along the PQ cicumference and returns to the centre along OQ as shown in fig. If the round trip taken ten minute, the net displacement and average speed of the cylists (in kilometer and kinetic per hour) is

A cyclist travels from centre O of a circular park of radius 1 km and reaches point P. After cycling along 1//4 th of the circumference along PQ, he returns to the centre of the park along QO. If the total time taken is 10 minutes, calculate (i) net displacement (ii) average velocity and (ii) average speed of the cyclist.

A cyclist starts from the centre O of circular path of radius 10 m, covers the radius of circular path and reaches at point X on circumference, then cycles along the semi-circular path and reaches the point Y. If he takes 10 minutes to go from O to Y via X, then the net displacement and average speed of the cyclist would be

A cyclist starts form centre O of a circular park oa radius 1 km and moves along the path OPRQO as whown Fig. 2 (EP).15. If he maintais constant speed of 10 ms^(-1) , what is his acceleration at point (R )in magnitude and direction ? .

There is a circular park of radius 24 m and there is a pole at a distance of 26 m from the centre of the park os shown in the figure. It is planned to enclose the park by planting trees along line segments PO and PR tangential to the park. Find the length of PQ and PR.

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?