Physics Course/Force/Force: Difference between revisions

Force is a term used to describe a quantity that acts on an object to change object's state or to perform a task on the object. Example Force used to push or pull a cart or force used to break a stick

Force exerts on a cross sectional area of a surface of an object is called Pressure

${\displaystyle P=\frac{F}{A}}$

The ability of a Force to carry out a task on an object is defined Work done on the object . Work done by a force on an object to move object over a distance s is defined as the product of Force and Distance move

${\displaystyle W=Fs=Fvt=pv}$

${\displaystyle W=F\int v(t)dt}$

The ability of a Force to carry out a task on an object over a period of Time .

${\displaystyle E=\frac{W}{t}=F\frac{s}{t}=Fv=Fat=pa}$

${\displaystyle E=\frac{F}{t}\int v(t)dt}$

Motion Force is a force used to set an object in motion . Force to make an object move is calculated by

${\displaystyle F=ma}$

${\displaystyle F=m\frac{v}{t}=\frac{p}{t}}$

For any motion of speed v(t) caused by a force

${\displaystyle F=m\frac{dv(t)}{dt}}$

Attraction's Force of the Earth to attract any object toward the Earth

${\displaystyle g=G\frac{m}{r^2}}$

${\displaystyle F_g=Mg=G\frac{mM}{r^2}}$

ElectroMotive Force is the electric force that set stationary charge to move in a straight horizontal line

${\displaystyle F_E=qE}$

ElectroMagnetoMotive Force is the magnetic force that set the moving charge to move in perpendicular to the horizontal direction

${\displaystyle F_B=\pm vB}$

ElectroMagnetic Force is the sum of the Electric Field Force and the Electric force

${\displaystyle F_{E}B=F_E+F_B=q(E\pm vB)}$

Force is used to to describe a quantity that acts on matter to perform a task

1. To cause an object to move or to set an object in motion . Example to push or pull a door
2. To cause matter to change its state . Example change Solid to Liquid to Gas

Force	Definition	Formula
Motion Force	Force causes an object's motion	F = m a = ${\displaystyle \frac{mv}{t}}$ = ${\displaystyle \frac{p}{t}}$
Gravitation Force	Earth's Force to pull an object toward the earth	Fg = m g = ${\displaystyle G\frac{mM}{R^2}}$
Friction Force	Force one surface exerts on another surface
Elastic Force	Elastic Force of a Spring	F = - k x
Electrostatic Force	Force of attraction of two stationary Unlike Charge	${\displaystyle F_e=K\frac{Q_{+}{Q}_{-}}{R^2}}$
ElectroMotive Force	Force causing a stationary charge to move in straigh line	${\displaystyle F_E=QE}$
ElectroMagnetoMotive Force	Magnetic Force that cause moving charge to move up or down perpendicular to initial direction of travel	${\displaystyle F_B=QvB}$
ElectroMagnetic Force	The sum of Electrostatic Force and ElectroMagneto Force	${\displaystyle F_{E}B=F_E+F_B=Q(E+vB)}$

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