def __init__(self, bondingtype1, bondingtype2, bondingtype3, r=0.0 * units.nanometers, kUB=0.0 * units.kilojoules_per_mole * units.nanometers ** (-2), c=False): AbstractAngleType.__init__(self, bondingtype1, bondingtype2, bondingtype3, c) self.r = r self.kUB = kUB
def __init__(self, bondingtype1, bondingtype2, bondingtype3, theta=0.0 * units.degrees, k=0.0 * units.kilojoules_per_mole, c=False): AbstractAngleType.__init__(self, bondingtype1, bondingtype2, bondingtype3, c) self.theta = theta self.k = k
def __init__(self, bondingtype1, bondingtype2, bondingtype3, r1=0.0 * units.nanometers, r2=0.0 * units.nanometers, k=0.0 * units.kilojoules_per_mole * units.nanometers ** (-2), c=False): AbstractAngleType.__init__(self, bondingtype1, bondingtype2, bondingtype3, c) self.r1 = r1 self.r2 = r2 self.k = k
def __init__(self, bondingtype1, bondingtype2, bondingtype3, r=0.0 * units.nanometers, kUB=0.0 * units.kilojoules_per_mole * units.nanometers**(-2), c=False): AbstractAngleType.__init__(self, bondingtype1, bondingtype2, bondingtype3, c) self.r = r self.kUB = kUB
def __init__(self, bondingtype1, bondingtype2, bondingtype3, theta=0.0 * units.degrees, k=0.0 * units.kilojoules_per_mole * units.radians ** (-2), r=0.0 * units.nanometers, kUB=0.0 * units.kilojoules_per_mole * units.nanometers ** (-2), c=False): AbstractAngleType.__init__(self, bondingtype1, bondingtype2, bondingtype3, c) self.theta = theta self.k = k self.r = r self.kUB = kUB
def __init__(self, bondingtype1, bondingtype2, bondingtype3, theta=0.0 * units.degrees, C0=0.0 * units.kilojoules_per_mole, C1=0.0 * units.kilojoules_per_mole * units.radians ** (-1), C2=0.0 * units.kilojoules_per_mole * units.radians ** (-2), C3=0.0 * units.kilojoules_per_mole * units.radians ** (-3), C4=0.0 * units.kilojoules_per_mole * units.radians ** (-4), c=False): AbstractAngleType.__init__(self, bondingtype1, bondingtype2, bondingtype3, c) self.theta = theta self.C0 = C0 self.C1 = C1 self.C2 = C2 self.C3 = C3 self.C4 = C4
def __init__(self, bondingtype1, bondingtype2, bondingtype3, theta=0.0 * units.degrees, C0=0.0 * units.kilojoules_per_mole, C1=0.0 * units.kilojoules_per_mole * units.radians**(-1), C2=0.0 * units.kilojoules_per_mole * units.radians**(-2), C3=0.0 * units.kilojoules_per_mole * units.radians**(-3), C4=0.0 * units.kilojoules_per_mole * units.radians**(-4), c=False): AbstractAngleType.__init__(self, bondingtype1, bondingtype2, bondingtype3, c) self.theta = theta self.C0 = C0 self.C1 = C1 self.C2 = C2 self.C3 = C3 self.C4 = C4