The maximum speed with which a car driven round a curve of radius 18 m without skidding (where ,`g=10ms^(-2)` and the coefficient of friction between rubber tyres and the roadway is 0.2)is

The maximum speed with which a car can be driven touqd a curve of radius 18 m without skidding {When g = 10 ms^-2 and the coefficient of friction between rubber tyres and the roadways is 0.2) is

Fing the maximum speed with which an automobile can round a curve of radius 8 m without slipping of the road is unbanked and he coefficient of friction between the orad an the tyres is 0.8 (g=10 m//^(2))

Fing the maximum speed with which an automobile can round a curve of radius 8 m without slipping of the road is unbanked and he coefficient of friction between the orad an the tyres is 0.8 (g=10 m//^(2))

What is the maximum speed with which an automobile can round an unbanked curve of radius 200 m without skidding if the coefficient of friction between tyre and road is 0.3 ? (g = 9.8 ms^(-2)) [Hint : Centripetal force = (mv^(2))/(r) = muN = mu mg ]

A bend in a level road has radius of 100 m.Find the maximum speed with which a car turning this bend may have without skidding ,if the coefficient of friction between the tyres and road is 0.8.

What is the maximum speed with which a cyclist can move without skidding, in a circular path of radius 10 m, on a road where the coefficient of friction between the tyre and the road is 0.5 ?

A car round on unbanked curve of radius 92 m without skidding at a speed of 26 ms ^(-1) . The smallest possible coefficient of static friction between the tyres and the road is

A car round on unbanked curve of radius 92 m without skidding at a speed of 26 ms ^(-1) . The smallest possible coefficient of static friction between the tyres and the road is