A road is banked with an angle 0.01 radian. If the radius of the road is 80 m `(g = 10 `m//s`^2)` then the safe velocity for the drive will be

A road is banked at an angle of 0.01 radian. If the radius of the road is 80m, then safe speed for the driver will be: (g = 10 N kg^-1)

A railway line is banked with an angle of 0.01 radians. The height of the outer rail over inner rail, if the distance between the two rails of 1.5m, will be

The slope of the smooth banked horizontal road is rho . If the radius of the curve road is 'r' , them the maxiumum velocity with which a car can negotiate the curve will be

The velocity of kerosene oil in a horizontal pipe is 5 m/s. if g = 10 m/s^2 , then the velocity head of oil will be

A car is moving with a speed of10 m//s in a concave road of radius 100 m. If the mass of the car is 700 kg, then the reaction on the car tyres when it is at the lowest position will be

A road is 10 m wide. Its radius of curvature is 50 m. The outer edge is above the lower edge by 2 m. If g=10 m//s ^2 for what velocity of a vehicle is the road suited ?

A circular wire of length 0.1 m is touching the surface of the liquid of surface tension 3xx10^-2 N/m. The mass of the wire is 10^-4 kg. if g = 10m//s^2, then the force needed to lift the circular wire is

A car is negotiating a curved road of radius R. The road is banked at angle theta . The coefficeint of friction between the tyres of the car and the road is mu_(s) . The maximum safe velocity on this road is

A 100g iron ball having velocity 10m//s collies with a wall at an angle 30^(@) and rebounds with the same angle. If the period of contact between the ball and wall is 0.1 second, then the force experinced by the wall is

The maximum speed with which a vehicle can negotiate a cuved road, which is banked at the angle theta=tan^-1(0.24) is 54 km//hr . IF the same road is flat and vehicle has to negotiate the curve with same maximum speed, the coefficient of friction between the road and tyres of the vehicle should be