In physics, work is defined by the product of force and perpendicular distance which it acts. The unit for work is the Joule(J)
Work done = Force * Distance moved
(Joules) (Newtons) (meters)
Work is a scalar quantity.
Work = Force X DisplacementX cos theta
where theta is the angle between the force and displacement vector.
The unit of work is equal to the unit of force multiplied by the unit of displacement.. Newton X meter, which is equivalent to joules . (J)
W = F * d
Work equals Force times distance
Work = Force * Direction.
The work formula is used to calculate work done, force or displacement in any problems. It is given in Nm.
work(W)=force(F)*displacement(d).
Work= Force * Distance
E(photon energy)=K.E+Work Function
The Arrhenius equation was created by Svante Arrhenius in 1889, based on the work of Dutch chemist J. H. van't Hoff. The rate equation shows the effect of changing the concentrations of the reactants on the rate of the reaction.
The number of neutrons is the difference between mass number and the number of protons.
An unbalanced equation having diffrent mass on both side of equation is called skeletol equation.
If the supply voltage is Vs and the equipment voltage is Va, then the equipment will work if Va = Vs (equation). But if Vs / Va = 220 / 120 (equation) the equipment will fail.
It depends what equation you are trying to work out.
The definition of work is (force) times (distance). If you mean you're given the equation and you need to solve it for 'work', then you only need to multiply both sides of the equation by 'time', and you'll have (power) x (time) = (work)
plug your solution back into the original equation and work it out again
work/time = power
Work = Force * work=Force x Distance
work out everything within the brackets first. then work out rest of equation.
it is a modified version of one of the newtons equation , newton equation cannot define the relation between work and enrgy thats why we generate the relation for work enrgy theorem
I think you are referring to checking a math equation. After you solve an equation you should go back and check your work to make sure you got the right answer. You can do this by plugging your answer back into the equation
Work (joules) = force (newtons) * distance (metres)
Force that did the work = (work done) divided by (distance the force acted through)
The accounting equation displays the relationship between capital, liabilities and the assets. The accounting equation shows that the assets are a sum of the liabilities and the invested capital.
Do the work inside the parenthesis first.