Drawing Description:
(You can create a drawing based on this description.)
In the drawing, there’s a ball sitting on the ground. Next to the ball, there's an arrow pointing right labeled "Push force." A second arrow, labeled "Friction," points left towards the direction opposite to the push. The background includes grass and trees, indicating an outdoor setting.
Explanation of Newton's First Law of Motion:
Definition and Inertia:
Newton's First Law of Motion states that an object at rest will remain at rest, and an object in motion will continue in motion with the same speed and in the same direction unless acted upon by a net external force. This property of an object to resist changes in its state of motion is known as inertia.
Scenario Description:
In the drawing, the ball represents an object at rest. The "Push force" arrow indicates an attempt to move the ball, while the "Friction" arrow represents the opposing force acting against the motion of the ball. This setup illustrates a practical scenario where forces are at play.
Relation to the Law:
Since the ball is at rest, the push force must overcome the friction for the ball to move. According to Newton's First Law, if no net force is acting on the ball (i.e., the push force does not exceed the friction), it will remain at rest. Therefore, the situation depicted in the drawing shows how the ball will only start moving when the force applied is sufficient to counteract the friction, aligning perfectly with the principle of inertia inherent in Newton's First Law. If the push force is greater than friction, the ball will eventually start moving in the direction of the push.