It is the inverse of the displacement of the point of application in the direction of of the force.
The ratio is the M/cos(x). where M is the mass on which the force is acting and x is the angle between the direction of the force and the direction of the acceleration.
It is the efficiency of the machine.
The ratio is simply 24/15. That fraction (or ratio) can be simplified by dividing both numbers by their highest common factor.
It is called the percentage.
it can be called a ratio also.
The ratio of (distance) / (time), called "speed".The ratio of (speed) / (time), called "acceleration".The ratio of (force) / (area), called "pressure".The ratio of (force) / (acceleration), called "mass".The ratio of (mass) / (volume), called "density".The ratio of (distance) / (volume), sometimes called "fuel economy".The ratio of ( 1 ) / (time), called "frequency".The ratio of (energy) / (time), called "power".
The ratio of resistance force to effort force is a mechanical advantage.
The ratio of output force to input force for a machine is called its mechanical advantage.
The answer is mechanical advantage, not efficiency!
The ratio of the force required to do work without the machine (load force, FL) over the force required to do work when using a machine (effort force, FE).
Force is anything that can do work. W=fd.. It is the ratio of what has been done and how far it goes. :)
Force is the ratio of the amount of work the machine can do over the amount of time it takes to do the work.
The dependency ratio should be used to asses how well the labor or work force supports those who do not work in relation to other countries or regions.
This is called the mechanical advantage. and is just a ratio comparing how much you put in to how much you get out.
This is called the mechanical advantage. and is just a ratio comparing how much you put in to how much you get out.
Such work - the product of force and a distance - is simply called "work". It is actually a kind of energy.
work