Newton's Third Law of Motion
These ideas from NASA can be adapted to engage students in a collection of activities that explore action-reaction.Curriculum Corner
Learning requires action. Give your students this sense-making activity from The Curriculum Corner.Socratic Dialog-Inducing Labs: Newton's First and Third Laws
A collection of "guided construction" activities that introduces the concept of force, force diagrams and Newton's third law.
Identifying Action and Reaction Force Pairs
According to Newton's third law, for every action force there is an equal (in size) and opposite (in direction) reaction force. Forces always come in pairs - known as "action-reaction force pairs." Identifying and describing action-reaction force pairs is a simple matter of identifying the two interacting objects and making two statements describing who is pushing on whom and in what direction. For example, consider the interaction between a baseball bat and a baseball.
The baseball forces the bat to the left; the bat forces the ball to the right. Together, these two forces exerted upon two different objects form the action-reaction force pair. Note that in the description of the two forces, the nouns in the sentence describing the forces simply switch places.
Baseball pushes glove leftwards.
Bowling ball pushes pin leftwards.
Enclosed air particles push balloon wall outwards.
1. Consider the interaction depicted below between foot A, ball B, and foot C. The three objects interact simultaneously (at the same time). Identify the two pairs of action-reaction forces. Use the notation "foot A", "foot C", and "ball B" in your statements. Click the button to view the answer.
2. Identify at least six pairs of action-reaction force pairs in the following diagram.