Centre of Mass 2 Question 2

3. A ball is thrown vertically up (taken as $+Z$-axis) from the ground. The correct momentum-height $(p-h)$ diagram is

(2019 Main, 9 April I) (a)

(c)

(b)

(d)

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Answer:

Correct Answer: 3. (d)

Solution:

  1. When a ball is thrown vertically upward, then the acceleration of the ball,

$a$ =acceleration due to gravity ( $g$ ) (acting in the downward direction).

Now, using the equation of motion,

$$ \begin{aligned} v^{2} & =u^{2}-2 g h \\ \text { or } \quad h & =\frac{-v^{2}+u^{2}}{2 g} \end{aligned} $$

As we know, momentum, $p=m v$ or $v=p / m$

So, substituting the value of $v$ in Eq. (i), we get

$$ h=\frac{u^{2}-(p / m)^{2}}{2 g} $$

As we know that, at the maximum height, velocity of the ball thrown would be zero.

So, for the flight when the ball is thrown till is reaches the maximum height $(h)$.

$v \rightarrow$ changes from $u$ to 0

$\Rightarrow p \rightarrow$ changes from $m u$ to 0

Similarly, when it reacher it’s initial point, then

$h \rightarrow$ changes from $h _{\text {max }}$ to 0

Also, $p \rightarrow$ changes from 0 to some values.

Thus, these conditions are only satisfied in the plot given in option (d).



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