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Derive three equation of motion??​

Answer 1

Answer:

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1) First equation of Motion: v = u + a t

Consider a body of mass m having initial velocity u.

Let after time t its final velocity becomes v due to uniform acceleration a.

Now we know that:

Acceleration = Change in velocity / Time taken

Acceleration = (Final velocity - Initial velocity) / Time taken

a = v - u / t

a t = v - u

or v = u + a t

This is the first equation of motion.

(2) Second equation of motion: s = u t + 1/2 at2

Let the distance travelled by the body be s.

We know that

Distance = Average velocity x Time

Also, Average velocity = (u + v) / 2

.: Distance (t) = (u + v) / 2 t .eq.(1)

Again we know that:

v = u + at

Substituting this value of v in eq.(1), we get

s = (u + u + a t) / 2 t

s = (2 u + a t) / 2 t

s = (2 u t + a t2) / 2

s = (2 u t / 2) + (a t2 / 2)

or s = u t + (1/2) a t2

This is the 2nd equation of motion.

(3) Third equation of Motion: v2 = u2 +2 a s

We know that

v = u + a t

v - u = a t

or t = (v - u) / a ..eq.(2)

Also we know that

Distance = average velocity x Time

.: s = [(v + u) / 2] x [(v - u) / a]

s = (v2 u2) / 2 a

2 a s = v2 u2

or v2 = u2 + 2 a s

This is the third equation of motion.

Answer 2

Answer:

There are three equations of motion that can be used to derive components such as displacement(s), velocity (initial and final), time(t) and acceleration(a). ... First Equation of Motion : v=u+at. Second Equation of Motion : s=ut+\frac{1}{2}at^2. Third Equation of Motion : v^2=u^2+2as.

Galileo and the Equations of Motion. The first of the three laws of motion formulated by Newton (1642-1726) says that every object in a state of uniform motion remains in that state unless an external force is applied.

Explanation:

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