Loading DocumentV = volume
Vi = initial volume
Vf = final volume
FV = Field volume
MFR = Maximum force resistance
Fr = Force required
DMG = Damage
Vn = New volume
PL = Potential lift
A = Area
W = Width
H /h= Height
r = radius
μ= Friction
Fd = Force distribution
IV = impact volume
F = Force
u = unit measured
s = initial speed
t = time
d = distance
Mt = tolerable mass
Vd = vector discharge
Cylinder:
V=πr2hFV=(πr2h)+2πr2hMFR=(πr2h)+((r×h)+2πr2h)μ=r×h×MFRθ
Cone:
V=31πr2hFV=(3 1πr2h)+231πr2hMFR=(31πr2h)+((r×h)+231πr2h)μ=r×h×MFRθ
Cube:
V=A3FV=A3+2A3MFR=A3+(A+2A3)μ=A×MFRθ
Rectangular prism:
V=W×H×DFV=(W×H×D)+2W×H×DMFR=(W×H×D)+((W×H)+2W×H×D)μ=W×H×MFRθ
Sphere:
V=34πr3FV=(34πr3)+234πr3MFR=(34πr3)+((πr2)+234πr3)μ=(πr2)×MFRθ
Universal formulae:
Fr=MFR+10MFRMT=GMFRDMG=Vi−FrVf =Vi−∣DMG∣Vn=Vi+∣ DMG ∣PL=4Vi+∣DMG ∣IV=Fd×FFd=(2θ×F)u3Vd=√∑f(m,s,t∣s,t)Vd′=2Vd×4
Linear dissipation (velocity - U.R)