Straightforward transformations of these impact force formulas lead to calculations for the body mass, velocity on impact, collision distance or collision duration, all supported by our force calculator. This formula will output the result in Newtons, assuming your input was in the correct standardized metric units: kilograms, meters, seconds, meters per second.
Whereas the second equation is applicable if instead of the collision distance we know the duration of the collision ( t) which is Δt = t 1 - t 0 where t 0 is the first moment in which the bodies connect and t 1 is the moment they reach the end of the deformation process by either denting or bouncing off each other. The formula for impact force expressed in terms of the body's velocity (speed) on impact ( v), its mass ( m), and the collision distance ( d) is the first formula below: For other outputs it is in both standard metric units and imperial ones, with the units automatically being adjusted depending on how big or small the resulting value is. The output if calculating collision force is in Newtons or KN, MN and GN, as well as pound-force (lbf). The respective input fields will be hidden or displayed upon selecting what you want to use the calculator for. The impact force calculator can also be used to solve for any of the other values: mass, velocity, impact duration and deformation distance. the depth of the bent on a car bumper following a crash. You need to know the body's mass, velocity on impact (can be calculated if you know its acceleration and the duration of its travel time) and either collision duration (from first contact to the end of the collision process) or collision distance, e.g. It can also be used to calculate the force of impact of different kinds of projectiles. For example, it can be used to calculate the impact force of a vehicle (car, truck, train), plane, football, of birds hitting a plane or wind mill, as well as for falling bodies that crash into the ground. This versatile impact force calculator is useful for estimating the impact forces involved in collisions of different kinds.
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