Question

Sachin hits a cricket ball which then rolls on a level ground. After covering a short distance, the ball comes to rest.
The ball stop beacaue:​

Answer 1

Explanation:

r cycle is the path that all water follows as it moves around Earth in different states. ... Water vapor—a gas—is found in Earth's atmosphere. Water can be found all over Earth in the ocean, on land and in the atmosphere. The water cycle is the path that all water follows as it moves around our planet.The water cycle is the path that all water follows as it moves around Earth in different states. ... Water vapor—a gas—is found in Earth's atmosphere. Water can be found all over Earth in the ocean, on land and in the atmosphere. The water cycle is the path that all water follows as it moves around our planet.The water cycle is the path that all water follows as it moves around Earth in different states. ... Water vapor—a gas—is found in Earth's atmosphere. Water can be found all over Earth in the ocean, on land and in the atmosphere. The water cycle is the path that all water follows as it moves around our planet.The water cycle is the path that all water follows as it moves around Earth in different states. ... Water vapor—a gas—is found in Earth's atmosphere. Water can be found all over Earth in the ocean, on land and in the atmosphere. The water cycle is the path

of friction

Answer 2

$\mathfrak{dear\:user}$

$\mathfrak{question-}$$\textbf{the \;ball\:stopped\:because}$

$\mathfrak{here\:is\:the\:solution}$

$\mathbb{ANSWER}$

$\textsf{1.Sachin hits a cricket ball which then rolls on a level ground. }$

$\textsf{2.After covering a short distance, the ball comes to rest. }$

$\textsf{3.The ball stop because there is a force on the ball opposing the motion.}$

$\mathbb{EXPLANATION}$

$\to\textsc{The ball comes to rest because the forces like air pressure which is }$$\textsc{resisting the ball from moving forward and also the frictional force .}$$\textsc{between the ball and ground}$

$\to\textsc{These forces are acting on the ball in opposite direction of ball's motion.}$

$\to\textsc{If there had been no external force applied the ball would have been moving}$$\textsc{ and would have not stopped in straight line according to }$ $\textsc{Newton's First Law of Motion}$

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