Syllabus Edition

First teaching 2023

First exams 2025

|

Newton’s Third Law (HL IB Physics)

Revision Note

Ashika

Author

Ashika

Last updated

Newton’s Third Law

  • Newton's first and second laws of motion deal with multiple forces acting on a single object
  • Newton's third law deals with the forces involved when two objects interact

  • Newton's Third Law states:

If Object A exerts a force on Object B, then Object B will exert a force on Object A which is equal in magnitude but opposite in direction

  • When two objects interact, the forces involved arise in pairs
    • These are often referred to as third-law pairs
  • A Newton's third law force pair must be:
    • The same type of force 
    • The same magnitude
    • Opposite in direction
    • Acting on different objects

  • Newton’s third law explains the forces that enable someone to walk
  • The image below shows an example of a pair of equal and opposite forces acting on two objects (the ground and a foot):

Newton Third law in action, downloadable IGCSE & GCSE Physics revision notes

Newton's Third Law: The foot pushes the ground backwards, and the ground pushes the foot forwards

  • The foot pushes on the ground and the ground pushes back on the foot
    • Both of these forces are the normal contact force (sometimes called the support force or the normal reaction force)
    • The forces are of equal magnitude
    • The forces are opposite in direction
    • The forces are acting on different objects (the foot and the ground)

Examiner Tip

It is a common error to misidentify the forces acting in a third law situation. You may have identified the force acting on the ground as weight. The magnitude of the normal contact force of the foot acting on the ground is equal to the person's weight (assuming only one foot is on the ground) which is where the confusion arises. 

Remember that for a third law pair of forces, they must be the same type of force. So if you are considering the weight of the person, you actually mean the gravitational pull of the Earth on the person. Therefore, the third law pair would be the gravitational pull of the person on the Earth.

It can be very helpful to simplify the language when you deal with third law pairs and just describe the force as a push or a pull to start with.

A good framework for this is a 3 part label: Object A pushes/pulls on Object B, and Object B pushes/pulls on Object A.

From here you can see if you are dealing with a third law pair and add in the extra detail from there.

Worked example

A physics textbook is at rest on a lab bench. Student A draws a free-body force diagram for the book and labels the forces acting on it.

WE Newton Third law Question image, downloadable IGCSE & GCSE Physics revision notes

Student A says the diagram is an example of Newton's third law of motion. Student B disagrees and says the diagram is an example of Newton's first law of motion.

By referring to the free-body force diagram, state and explain who is correct.

Answer:

Step 1: State Newton's first law of motion

  • Objects will remain at rest, or move with a constant velocity unless acted on by a resultant force

Step 2: State Newton's third law of motion

  • If Object A exerts a force on Object B, then Object B will exert a force on Object A which is equal in magnitude but opposite in direction

Step 3: Check if the diagram satisfies the conditions for identifying Newton's third law

  • A Newton's third law force pair must be:
    • The same type of force 
    • The same magnitude
    • Opposite in direction
    • Acting on different objects
  • The forces acting on the book are not the same type
    • The forces acting on the book are weight and normal contact force
  • The forces are not acting on different objects
    • Both forces are acting on the book
  • Therefore, this is not an example of Newton's third law
    • This is an example of Newton's first law

Step 4: Conclude which person is correct

  • Student B is correct

WE Newton Third law Answer image, downloadable IGCSE & GCSE Physics revision notes

  • The clue is the free-body force diagram, these only apply to multiple forces acting on one object
  • The forces acting on the book are of equal magnitude and in opposite direction so there is zero resultant force acting on the book and it remains at rest on the lab bench

  • To apply Newton's third law to this situation, the interaction between two objects must be considered
    • The book pushes on the table and the table pushes back on the book
      • These are both normal contact forces of equal magnitude and opposite direction
    • The book pulls on the Earth, the Earth pulls on the book
      • These are both weight forces (the gravitational pull of the Earth on the book, and the gravitational pull of the book on the Earth) of equal magnitude and opposite direction

Examiner Tip

Just because you see two forces of equal magnitude acting in opposite directions doesn't mean they are a Newton's third law force pair! The confusion often arises in the book example because the normal contact force of the book on the table is equal in magnitude and direction to its weight.

You must remember to apply the specific criteria; a Newton's third law pair must meet all of the criteria.

You've read 0 of your 5 free revision notes this week

Sign up now. It’s free!

Join the 100,000+ Students that ❤️ Save My Exams

the (exam) results speak for themselves:

Did this page help you?

Ashika

Author: Ashika

Expertise: Physics Project Lead

Ashika graduated with a first-class Physics degree from Manchester University and, having worked as a software engineer, focused on Physics education, creating engaging content to help students across all levels. Now an experienced GCSE and A Level Physics and Maths tutor, Ashika helps to grow and improve our Physics resources.