Question

In traveling a distance of 2.5 km between points A and D, a car is driven at 99 km/h from A to B for t seconds and 48 km/h from C to D also for t seconds. If the brakes are applied for 3.4 seconds between B and C to give the car a uniform deceleration, calculate t and the distance s between A and B.

Answer 1

d = 1.954 Km

Step-by-step explanation:

given,

total distance, D = 2.5 Km

in stretch A to B =

speed = 99 Km/h = 99 x 0.278 = 27.22 m/s time =t

in stretch B to C

time = 3.4 s

In stretch C to D

speed = 48 Km/h = 48 x 0.278 = 13.34 m/s time =t

we know,

distance = speed x time

distance of BC

using equation of motion

v = u + a t

27.22 = 13.34 - a x 3.4

a = 4.08 m/s²

uniform deceleration is equal to 4.08 m/s²

distance traveled in BC

`s = ut + (1)/(2)at^2`

`s = 13.34* 3.4 + (1)/(2)* 4.08 * 3.4^2`

s = 68.94 m

`3000 = 99 * (1000\ t)/(3600)+ 68.94 + 48* (1000\ t)/(3600)`

3000 = 27.5 t + 68.94 + 13.33 t

40.83 t = 2931.06

t = 71.79 s

distance travel in AB

distance = s x t

d = 27.22 x 71.79

d = 1954 m

d = 1.954 Km

distance between A and B is equal to 1.954 Km.