$\left(\mathrm{i}\right)$ Define one newton and one dyne.

$\left(\mathrm{ii}\right)$ A bullet penetrates $3 \mathrm{cm}$ in a wooden plank which produces a resistive force to half its velocity. After how much more distance does the resistive force will stop the bullet?

$\left(\mathrm{i}\right)$ Define force in terms of acceleration.

$\left(\mathrm{ii}\right)$ Is it possible a particle acted upon by an unbalanced force is still non-accelerated?

$\left(\mathrm{iii}\right)$ A force of $20 \mathrm{N}$ produces an acceleration of $4 \mathrm{m}{\mathrm{s}}^{-2}$ in a body of mass ${\mathrm{m}}_1$ while an acceleration of $10 \mathrm{m}{\mathrm{s}}^{-2}$ in a body of mass ${\mathrm{m}}_2.$ What will be the acceleration if same force is applied when both the bodies are tied together?

How does the weight of a person in a elevator will vary if

$\left(\mathrm{i}\right)$ It moves upward with acceleration a?

$\left(\mathrm{ii}\right)$ It moves downward with acceleration a?

$\left(\mathrm{iii}\right)$ It falls freely?

$\left(\mathrm{iv}\right)$ It is moving with uniform velocity?

$\left(\mathrm{v}\right)$ It is at rest?

$\left(\mathrm{i}\right)$ What do you mean by isolated system?

$\left(\mathrm{ii}\right)$ Does the conservation of linear momentum holds good in non-isolated system? Explain.

$\left(\mathrm{i}\right)$ What do you mean by equilibrium of concurrent forces?

$\left(\mathrm{ii}\right)$ A uniform rope of length $L,$ resting on a frictionless horizontal surface is pulled at one end by a force $F.$ Find the tension in the rope at a distance $x$ from the end where the force is applied.