You can observe that something must have exerted a force on the moving car.įigure 3. However, the moving car comes to a stop, and its front end is also damaged. When the cars collide, the moving car exerts a force on the stationary car, which can damage the rear end of the stationary car. For example, think about one car rear-ending another car that is stopped at a red light. When two cars crash at a high enough speed, both cars are usually damaged (Figure 2). In this lesson plan, you will illustrate Newton's third law by crashing model cars that the students build themselves. For example, if you say "When you push on a wall, the wall pushes back on you," students might ask "How can a wall push if it can't move?" The lesson will help you address some of these misconceptions with students. ![]() It can be difficult to grasp how an inanimate object can push. Students may associate exerting a force with things that can move, such as a person pushing a box across the floor, or a snow plow pushing a pile of snow. Equal and opposite forces only cancel each other if they act on the same object. in Figure 1, the action force acts on the table, and the reaction force acts on the book). This is because the two forces act on different objects (e.g. ![]() ![]() For example, students might ask why the two equal and opposite forces don't just cancel each other out. This concept can be confusing for students, and several misconceptions exist. Action and reaction forces between a book and a table.
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