Foce impact
Yes, friction affects stopping distance. The greater the friction the lower the stopping distance; the lower the friction the greater the stopping distance.
Speed, reaction time, car's mass, tires, mechanical condition & type of brakes.
The steeper the slope, the longer the stopping distance is.
10 meters for thinking distance and 17 meters for stopping
Foce impact
The distance your vehicle travels while stopping depends on various factors such as your speed, road conditions, and reaction time. On average, a car traveling at 60 mph can take anywhere from 100-130 feet to come to a complete stop.
Yes, friction affects stopping distance. The greater the friction the lower the stopping distance; the lower the friction the greater the stopping distance.
There is too many factors to narrow the stopping distance down to a specific stopping distance. One of these factors is speed many people often are going to fast in icy condition causing horrible car pile-ups and many crashes. People need to be more cautious in icy conditions.
you're a tool. dependant upon inertia, stopping surface, braking potential, weight. lots of factors. a car may have ABS or not. this affects the final distance
Stopping distance at 30mph = 23m
Stopping Distance = 15 feet
Stopping distance mostly depends on various factors 1.Width of tyres. 2.Road friction and wetness. 3.weight of your vehicle. For safe driving a minimum of 52metres or more is considerable.
Stopping Sight Distance
Speed, reaction time, car's mass, tires, mechanical condition & type of brakes.
condition of car condition of driver weather road surface by jibran ali
Stopping Distance = about 146.25 feet.