Physics, asked by boomshakaraka, 9 months ago

A train starts from rest and moves with a constant acceleration of 2.0 m/s 2 for half a minute. The brakes are then applied and the train comes to rest in one minute. Find (A) the total distance moved by the train (B) the maximum speed attained by the train and (C) the position(s) of the train at half the maximum speed.

Answers

Answered by Anonymous
7

Answer:

In this Journey, the train has accelerated and decelerated motion.

For accelerated motion :

Initial velocity=u=0m/s

acceleration=a=2m/s2

time=t=half minute=30 sec

Final velocity =V=?

From first equation of motion , v=u+at

v=0+2x30=60m/s

So train has travelled 60m/s before brakes are appplied.

Hence the maximum speed attained by train 60m/s.

Distance travelled : From second equation of motion : S=ut+1/2at²

S=0x30+1/2 x 2x 30²

s=900m/s

s=900/1000 =0.9km

c) The position of train at half the maximum speed [30m/s]:=

Let s be the position of train at half the maximum speed 

v²-u²=2as

s=v²-u²/2a

s=30²-0²/2x2

s=900/4=225m

For decelerated motion :

Final Velocity=V=o m/s

initial velocity=u=60m/s

time=60sec

From first equation of motion : v=u+at

0=60+ax60

a=-60/60=-1m/s2

Distance travelled during this part is :

s=ut+1/2at²

=60x60+1/2 (-1x60²)

=3600-1800

=1800m

=1.8km

Hence total distance travelled by train=0.9km+1.8km

=2.7km

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