Radius of Mass 1 in Rotational Spectroscopy Formulas

Radius of mass 1 is a distance of mass 1 from the center of mass. And is denoted by R₁. Radius of Mass 1 is usually measured using the Centimeter for Length. Note that the value of Radius of Mass 1 is always positive. Typically, the value of Radius of Mass 1 is greater than 0.

Formulas to find Radius of Mass 1 in Rotational Spectroscopy

fxRadius 1 of Rotation given Bond LengthGo

Rotational Spectroscopy formulas that make use of Radius of Mass 1

fxMass 1 of Diatomic MoleculeGo

fxMass 2 of Diatomic MoleculeGo

fxRadius 2 of RotationGo

fxMass 1 given Moment of InertiaGo

fxMass 2 given Moment of InertiaGo

fxRadius 2 given Moment of InertiaGo

fxBond LengthGo

fxRadius 2 of Rotation given Bond LengthGo

fxBond Length given Masses and Radius 1Go

fxKinetic Energy given Angular VelocityGo

fxVelocity of Particle 1Go

fxAngular Velocity given Kinetic EnergyGo

fxRotational Frequency given Velocity of Particle 1Go

fxMoment of Inertia of Diatomic MoleculeGo

List of variables in Rotational Spectroscopy formulas

fx Bond Length Go

fx Radius of Mass 2 Go

FAQ

What is the Radius of Mass 1?

Radius of mass 1 is a distance of mass 1 from the center of mass. Radius of Mass 1 is usually measured using the Centimeter for Length. Note that the value of Radius of Mass 1 is always positive. Typically, the value of Radius of Mass 1 is greater than 0.

Can the Radius of Mass 1 be negative?

No, the Radius of Mass 1, measured in Length cannot be negative.

What unit is used to measure Radius of Mass 1?

Radius of Mass 1 is usually measured using the Centimeter[cm] for Length. Meter[cm], Millimeter[cm], Kilometer[cm] are the few other units in which Radius of Mass 1 can be measured.

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