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Andrew Guy · Answer 1 · 2021-04-10T13:02:30+0000

Answer:

14.4 m

The distance covered by the body is 14.4 m.

Solution,

Initial velocity(u)= 0 m/s( according to Question, the body starts from rest.that's why initial velocity(u) becomes zero.

Acceleration (a)= 0.2 m/s

Time (t):

$(1)/(5) minute = (1)/(5 ) * 60 \: seconds$

$= 12 \: seconds$

Now,

Applying third equations of motion:

$s = ut + (1)/(2) a {t}^(2) \\ s = 0 * 12 + (1)/(2) * 0.2 * {(12)}^(2) \\s = 0 + 14.4 \\ s = 14.4 \: metre$

Thus, the distance covered by the body is 14.4 metre.

Further more information:

Application of equation of motion in different situation:

When a certain object comes in motion from rest, in the case, initial velocity(u)= 0 m/s
When a moving object comes in rest,in the case, final velocity(v)= 0 m/s
If the object is moving with uniform velocity, in the case, (u=v)
If any object is thrown vertically upward, in the case, acceleration (a)= -g
When an object is falling from certain height, in the case, u= 0 m/s
When an object is thrown vertically upwards in the case, final velocity at maximum height becomes 0.

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1 Answer

14.4 m

Application of equation of motion in different situation:

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