Newton's third law of motion

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Newton's third law of motion is a fundamental principle of classical mechanics stating that forces between two interacting bodies are equal in magnitude and opposite in direction.

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Newton's third law of motion canonical 2

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Statements (48)

Predicate Object
instanceOf law of motion
physical law
principle of classical mechanics
appliesTo contact forces
electromagnetic forces
friction force
gravitational forces
normal force
tension force
assumes inertial reference frame
category Newtonian mechanics
surface form: classical mechanics

dynamics
clarifies action and reaction forces act on different bodies
forces always occur in pairs
componentOf Newton's laws of motion
consequence total momentum of an isolated system is conserved
describes interaction between two bodies
mutual forces of action and reaction
doesNotImply action and reaction forces cancel each other on the same body
field classical mechanics
physics
formulatedBy Isaac Newton
hasExample person pushing off a wall and moving backward
recoil of a gun when a bullet is fired
thrust of a rocket due to expulsion of exhaust gases
walking due to ground reaction force
historicalPeriod 17th century
implies forces between two bodies form an action–reaction pair
forces between two interacting bodies are equal in magnitude
forces between two interacting bodies are opposite in direction
language English (originally Latin in Principia)
mathematicalForm F_AB = - F_BA
orderInSet third
publishedIn Philosophiæ Naturalis Principia Mathematica
relatedTo Newton's first law of motion
Newton's second law of motion
law of conservation of momentum
relates force on body A by body B
force on body B by body A
statedAs For every action, there is an equal and opposite reaction
usedIn ballistics
collision analysis
dynamics
engineering
rocket propulsion
statics
validIn non-relativistic regime
yearIntroduced 1687

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Full triples — surface form annotated when it differs from this entity's canonical label.

Newton's second law of motion relatedTo Newton's third law of motion
Newton's first law of motion relatedTo Newton's third law of motion