91Ó°ÊÓ

Six choices for the graph of momentum of block and the pieces versus time are given.

Using the law of conservation of momentum, we can find the choices which represent the physically impossible situations that are for non-conserved momentum.

Formula:

According to the conservation of momentum, ${\mathrm{P}}_{\mathrm{i}}={\mathrm{P}}_{\mathrm{f}}$ (1)

Let P be the momentum of the block and P₁ and P₂ are the momenta of pieces.

According to the law of conservation of momentum of equation (1), we get that

$\mathrm{P}={\mathrm{P}}_1+{\mathrm{P}}_2$

From plot (a) we can infer that

$\mathrm{P}<{\mathrm{P}}_1+{\mathrm{P}}_2$.

This implies that momentum is not conserved.

Therefore, choice (a) represents a physically impossible situation.

From plot (b) we can infer that

$\mathrm{P}={\mathrm{P}}_1+{\mathrm{P}}_2$.

This implies that momentum is conserved.

Therefore, choice (b) represents a physically possible situation.

From plot (c) we can infer that

$\mathrm{P}<{\mathrm{P}}_1+{\mathrm{P}}_2$

.

This implies that momentum is not conserved.

Therefore, choice (c) represents a physically impossible situation

From plot (d) we can infer that,

$\mathrm{P}={\mathrm{P}}_1+{\mathrm{P}}_2$.

This implies that momentum is conserved.

Therefore, choice (d) represents a physically possible situation

From plot (e) we can infer that

$\mathrm{P}>{\mathrm{P}}_1+{\mathrm{P}}_2$.

This implies that momentum is not conserved.

Therefore, choice (e) represents a physically impossible situation

From plot (f) we can infer that,

$\mathrm{P}<{\mathrm{P}}_1+{\mathrm{P}}_2$.

This implies that momentum is not conserved.

Therefore, choice (f) represents a physically impossible situation.