162- A cube-shaped block of mass $5\,\text{kg}$ is tied to a string and placed on a horizontal surface with a constant horizontal force of $15\,\text{N}$. Starting from rest, after 2 seconds the string breaks. If the coefficient of kinetic friction is $0.2$, what is the total distance the block travels from the start of motion until it comes to rest? $\left(g = 10\,\dfrac{\text{m}}{\text{s}^2}\right)$ $$1.5 \ (1) \qquad\qquad 2 \ (2) \qquad\qquad 2.5 \ (3) \qquad\qquad 3 \ (4)$$
\textbf{162-} A cube-shaped block of mass $5\,\text{kg}$ is tied to a string and placed on a horizontal surface with a constant horizontal force of $15\,\text{N}$. Starting from rest, after 2 seconds the string breaks. If the coefficient of kinetic friction is $0.2$, what is the total distance the block travels from the start of motion until it comes to rest? $\left(g = 10\,\dfrac{\text{m}}{\text{s}^2}\right)$
$$1.5 \ (1) \qquad\qquad 2 \ (2) \qquad\qquad 2.5 \ (3) \qquad\qquad 3 \ (4)$$
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