That depends on type of vehicle, vehicle condition, weight in or being towed by vehicle, tire condition and model, ABS equipped? all sorts of things.
The total stopping distance for a car travelling at 30 mph on a dry surface is about 75 feet. However, you may wish to note that in most countries, driving a car on the pavement is illegal.
With increased speed, stopping distance increases.
Stopping distance also increases.
The faster you are going the longer the stopping distance is. The slower you are going the shorter the stopping distance is. E.G. Speed of a car Thinking distace Breaking distance Total stopping distance mph meters meters meters 30 9 14 23 40 12 24 36 50 15 38 53 70 21 75 96
It increases faster than the speed increase ... approximately the square of the speed. So twice the speed results in 4 times the stopping distance.
3 seconds behind him, no matter the speed on dry pavement. More on wet pavement.
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.
using the formula, speed squared divided by 20 plus speed gives 40 feet approximate stopping distance at 20mph.
The stopping distance, after decelerating from 60 mph to 0 mph, will depend on the efficiency of the brakes, the friction between the tyres and the road surface and the mass of the vehicle.The initial speed alone cannot give you an answer.
No - the stopping distance depends on the speed of the vehicle - it' not simply a case of 'doubling-up'.
No it decreases it.
The distance needed to stop also increases.