Without knowing either the rate of negative acceleration or the time it takes for the car to stop, this question cannot be answered. There are three kinematic equations that could be used to answer this question. They are as follows:
d = (v_i)(t) + (1/2)(a)(t^2)
d = (v_i + v_f)/2 x t
V_f^2 = v_i^2 + 2ad, solve for d
In these equations, d is displacement, a is acceleration, t is time, v_i is initial velocity, and v_f is final velocity.
The stopping distance depends on a number of factors amongst which are:
The answer will depend on the condition of your brakes, the tyres and the road surface.
The answer depends on the resistance to motion that the brakes could impart. This, in turn, would depend on the conditions of the brakes, of the tyres and of the road.
It takes 28.8 seconds.
50 people have 100 feet.
well i don't know how fast is Caroline going?
1 meter is equal to 3.2808399 feet. Therefore 328.08399 feet would take 13.12336 seconds to travel at 25 feet per second.
55 feet
Stopping Distance = about 56.25 feet.
60 feet
That depends on how heavy the car is and the surface it is driving on
It will take an average of 229 feet to stop after going 50 miles per hours after seeing danger to stop. This will vary according to condition of brakes and drivers reaction time.
When traveling at 35 mph it will take you 210 feet to come to a complete stop.
No, under the best of conditions it will take almost 188 feet.
When traveling at 35 mph it will take you 210 feet to come to a complete stop
It takes a minimum of 135 feet for a car to stop at 45 miles per hour. The wear of the tires makes a difference in the distance too.
19.11 feet
There is no single answer here. It depends on the weather conditions, road type, the brakes, the tires, and goes on. Bottom line is that if you are worrying about how far you have to stop, you are going too fast. ■
75ft.