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Newton’s laws of motion
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Last edited time @October 1, 2023 9:11 AM
Newton’s laws of motion
NUMBER STATEMENT EQUATION CONSEQUENCE
A body will remain
at rest, or continue
INERTIA = the
moving at a
reluctance of a
I constant velocity, ∑ F = 0, ΔV = 0
massive body to
unless a non-zero
change its motion.
resultant force acts
on it.
Δρ
The rate of change Δt
α∑F F = ma [k ≡
of a body’s 1 kgms−2 ≡ 1N ]
momentum is or
II
proportional to the
resultant force F = Δρ
Δt
F = Δρ Δmv
Δt = Δt =
acting on it. m Δv
Δt
= ma
If body A exerts a
force on body B,
then body B will
exert on body A a
III A FB =B (−F )A
force that is equal in
magnitude and
opposite in
direction.
Newton’s third law.
A FB
=B (−F )A
eArth FB ox
=B ox (−F )eArth
Newton’s laws of motion 1
Newton’s laws of motion
Tags Done
Last edited time @October 1, 2023 9:11 AM
Newton’s laws of motion
NUMBER STATEMENT EQUATION CONSEQUENCE
A body will remain
at rest, or continue
INERTIA = the
moving at a
reluctance of a
I constant velocity, ∑ F = 0, ΔV = 0
massive body to
unless a non-zero
change its motion.
resultant force acts
on it.
Δρ
The rate of change Δt
α∑F F = ma [k ≡
of a body’s 1 kgms−2 ≡ 1N ]
momentum is or
II
proportional to the
resultant force F = Δρ
Δt
F = Δρ Δmv
Δt = Δt =
acting on it. m Δv
Δt
= ma
If body A exerts a
force on body B,
then body B will
exert on body A a
III A FB =B (−F )A
force that is equal in
magnitude and
opposite in
direction.
Newton’s third law.
A FB
=B (−F )A
eArth FB ox
=B ox (−F )eArth
Newton’s laws of motion 1
