So, for some reason, the Mass Effect series likes to express the potency of various abilities – particularly biotic powers, in Newtons of Force, rather than the amount of damage they deal.
Unfortunately, there is absolutely no mechanical transparency given as to how any given amount of Force will ever translate to any given amount of damage. Or for that matter, how any given amount of Force ever translates to anything, other than the implicit understanding that moar Newtons is moar better, because Sir Isaac Newton is the deadliest son of a bitch in space. Is it linear? Are there any multiplier effects involved? Do targets have a 'mass' attribute that effects their ability to be affected by powers that are measured in Newtons?
Best Answer
Force is a comparative measurement just like damage is. You don't actually see the health of your opponents or their damage mitigation, however because ability "A" does more damage than ability "B", than ability "A" must logically take more squares off the enemies health meter.
The same holds true for force. If ability "A" has more newtons of force than ability "B", then it will push the enemy further, or higher or whatever you are trying to achieve. If your trying to translate damage into force, you are really just translating two non-numeric relative measurements.
Also note that impact force can affect shields as well, for example Shockwave. This is again an abstract measurement, if an ability has more force than another ability, the ability with more force will cause more damage to the target's shield.
Edit, here is a technical diagram I drew in paint:
edit 2,
Here I used Throw to push away a Husk. The Husk was in melee range and I threw it back with 600N of force, and it ended 6 "strides" away from me. A stride being one full step from Shepard. Note that the effect was not the same (or even close) on much more armored opponents. This effect was reproducible on two more Husks. I currently do not have any other ability that exerts "force" to test.
edit 3, conclusion
Here I used Throw rank 3 to push away another Husk, the same conditions applied. This was tested twice.
This means an extra 180N of force produced an extra 2 "strides" of pushing distance. However we can account for rounding problems in calculating strides to conclude that,
On a Husk (~200lb?), 100N of force equals 1 stride of "pushing power" at a plane of force perpendicular to the ground.