Question

A train starts from rest and accelerates uniformly at a rate of 2 $m{s}^{-2}$ for 10 s.It then maintains a constant speed for 200 s.The brakes are then applied and the train is uniformly retarded and comes to rest in 50 s.Find:(i) the maximum velocity reached, (ii) the retardation in the last 50 s,(iii) the total distance travelled,and (iv) the average velocity of the train.

Answer 1

(i) For the first 10 s, initial velocity u = 0
Acceleration a = 2 m/s²
Time taken t = 10 s
Let ‘v’ be the maximum velocity reached.
Using the first equation of motion
v = u + at
We get
V = (0) + (2) (10) = 20 m/s

(ii) For the last 50 s: Final velocity = 0 m/s, initial velocity = 20 m/s.
Acceleration = (Final velocity – Initial velocity)/time
= (0 – 20)/50 = -0.4 m/s²
Retardation = 0.4 m/s²

(iii) Total distance travelled = Distance travelled in the first 10 s + Distance travelled in 200 s + Distance travelled in last 50 s
Distance travelled in first 10s (s₁) = ut + (1/2) at²
S₁= (0) + (1/2) (2) (10)²
S₁= 100 m
Distance travelled in 200s (s₂) = speed × time
S₂ = (20) (200) = 4000 m

Distance travelled in last 50s $s_3=ut+\left(1/2\right)a{t}^2$
Here, u = 20 m/s, t = 50 s and a = -0.4 m/s²
S₃= (20)(50) + (1/2) (-0.4) (50)²
S₃= 1000 – 500
S₃= 500 m
Therefore, total distance travelled = S₁ + S₂ + S₃ = 100 + 4000 + 500 = 4600 m

(iv) Average velocity = Total distance travelled/total time taken
= (4600/260) m/s
= 17.69 m/s