Physics, asked by lakshayo, 1 year ago

how will the equations of motion for an object moving with a uniform velocity change ?

Answers

Answered by mindfulmaisel
760

The equation of motion is derived based on the Newton’s laws of motion. And it changes accordingly when an object changes with uniform velocity.

Given is that object moves with uniform velocity, that is no change in velocity so there will no acceleration.

As we know a=v-\left(\frac{u}{t}\right)  

Here, u = v (due to uniform velocity)

\begin{aligned} a &=\frac{0}{t} \\ a &=0 \end{aligned}.

1st equation of motion is, v = u + at

\begin{array}{l}{v=u+0 \times t} \\ {v=u}\end{array}

2nd equation of motion, s=u t+\frac{1}{2} a t^{2}

\begin{array}{l}{s=u t+\left(\frac{1}{2} \times 0\right) \times t^{2}} \\ {s=u t}\end{array}

3rd equation of motion, \mathrm{v}^{2}=\mathrm{u}^{2}+2 \mathrm{a} \mathrm{s}

\begin{array}{l}{\mathrm{v}^{2}=\mathrm{u}^{2}+2 \times 0 \times s} \\ {v^{2}=u^{2}}\end{array}.

Answered by itssakshamagarwal
143

Answer:

For an object moving with uniform velocity, the acceleration would be equal to 0.  

 

Hence, in equations of motion, you can substitute a = 0 and they will become

Law1 : v = u  

Law 2 : s = ut

Law 3: v² = u²

i.e. v = u again.

Hope it helps : )

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