A car starts from rest on a `1600 m` long bridge. The coefficient of friction between the tyre and road is `0.8`. The minimum time taken by the car to cross the bridge is

A car starts from rest on a half kilometer long bridge. The coefficiet of friction between the tyre and the road is 1.0. Show that one cannot drive thrugh the bridge in less than 10 s.

A car starts from rest on a half kilometer long bridge. The coefficiet of friction between the tyre and the road is 1.0. Show that one cannot drive thrugh the bridge in less than 10 s.

A car starts from rest on a half kilometer long bridge. The coefficiet of friction between the tyre and the road is 1.0. Show that one cannot drive thrugh the bridge in less than 10 s.

A car starts from rest on a half kilometer bridge. The co-efficient of friction between the tyres and road is 1. Show that one can't drive through the bridge in less than 10 sec.

A car starts from rest on a 2 - km long bridge. The coefficient of friction is 0.5 . Find the minimum time to cross the bridge.

A car starts from rest to cover a distance s. the coefficient of friction between the road and the tyres is mu . The minimum time in which the car can cover the distance is proportional to

A car starts with a velocity of 100m//s on a half kilometre long bridge The coefficient of friction between the tyres and road is 0.1 Show that one cannot drive throught the bridge in less than 10 s Take g = 10m//s^(2) .

A car starts from rest. It has to cover a distane of 500m from rest to rest. The coefficient of friction between the road and the tyre is 1/2. the minimum time in which the car can cover this distance is? (g=10m//s^(2))

A car moves at speed of 36 km hr^-1 on a level road. The coefficient of friction between the tyres and the road is 0.8 . The car negotiates a curve of radius R. IF g=10 ms^-2 , then the car will skid (or slip) while negotiating the curve if the value R is