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Method of separation technique

- Diffusion coefficient when given standard deviation
- Distribution ratio
- Distribution ratio of solute A given separation factor
- Distribution ratio of solute B given separation factor
- Height of column given number of theoretical plates
- Mass of first analyte according to scaling equation
- Mass of second analyte according to scaling equation
- Mobile phase travel time given capacity factor
- Mobile phase travel time through column
- Molar concentration of third component in first phase
- Molar concentration of third component in second phase
- 16 More formulas!

Length of column

- Column length given number of theoretical plates
- Column length given number of theoretical plates and standard deviation
- Column length given number of theoretical plates and width of peak
- Column length given standard deviation and plate height
- Number of theoretical plates given length and height of column
- Number of theoretical plates given length of column and standard deviation
- Number of theoretical plates given length of column and width of peak
- Plate height given standard deviation and length of column
- Standard deviation given length of column and number of theoretical plates
- Standard deviation given plate height and length of column
- Width of peak given number of theoretical plates and length of column
- 1 More formulas!

Relative retention

- Adjusted retention of first component given relative retention
- Adjusted retention of second component given relative retention
- Capacity factor of solute 1 given relative retention
- Capacity factor of solute 2 given relative retention
- Partition coefficient of solute 1 given relative retention
- Partition coefficient of solute 2 given relative retention
- Relative retention given adjusted retention times
- Relative retention given capacity factor of two components
- Relative retention given partition coefficient of two components

Retention time

- Adjusted retention time given retention time
- Average width of peak given resolution and change in retention time
- Capacity factor given retention time and mobile phase travel time
- Change in retention time given half of average width of peaks
- Change in retention time given resolution and average width of peak
- Half width of peak given number of theoretical plates and retention time
- Number of theoretical plates given retention time and half width of peak
- Number of theoretical plates given retention time and standard deviation
- Number of theoretical plates given retention time and width of peak
- Resolution of two peaks given change in retention time
- Retention time given adjusted retention time
- 7 More formulas!

Retention volume

- Average width of peak given resolution and change in retention volume
- Capacity factor given retention volume and unretained volume
- Change in retention volume given resolution and average width of peak
- Flow rate given retention volume and time
- Half of average width of peaks given resolution and change in retention volume
- Resolution of two peaks given the change in retention volume

Volume of mobile and stationary phase

- Capacity factor given partition coefficient and volume of mobile and stationary phase
- Capacity factor in terms of stationary phase and mobile phase
- Volume of mobile phase given capacity factor
- Volume of mobile phase given capacity factor and partition coefficient
- Volume of stationary phase given capacity factor
- Volume of stationary phase given capacity factor and partition coefficient

Molecular Spectroscopy

Nuclear Magnetic Resonance Spectroscopy

- Chemical Shift in Nuclear Magnetic Resonance Spectroscopy
- Effective Nuclear Charge given Shielding Constant
- Effective Transverse Relaxation Time
- Local Distribution to Shielding Constant
- Nuclear Larmor Frequency
- Nuclear Larmor Frequency given Shielding Constant
- Observed Width at Half-Height of NMR Line
- Rate of Exchange at Coalescence Temperature
- Shielding Constant given Effective Nuclear Charge
- Total Local Magnetic Field

Raman Spectroscopy

- Anti Stokes scattering frequency
- Depolarization Ratio
- Electric field given polarizability
- Energy 1 of vibrational level
- Energy 2 of vibrational level
- Frequency Associated to Transition
- Incident frequency given Anti stokes frequency
- Incident frequency given Stokes frequency
- Molecular dipole moment
- Polarizability
- Stokes scattering frequency
- 3 More formulas!

Rotational Spectroscopy

Angular momentum and velocity of diatomic molecule

- Angular momentum in terms of kinetic energy
- Angular momentum using moment of inertia
- Angular velocity given kinetic energy
- Angular velocity in terms of inertia and kinetic energy
- Angular velocity of diatomic molecule
- Angular velocity using angular momentum and inertia
- Rotational frequency given angular frequency
- Rotational frequency in terms of velocity 1
- Rotational frequency in terms of velocity 2

Moment of Inertia

- Moment of Inertia in terms of K E and angular velocity
- Moment of inertia of diatomic molecule
- Moment of inertia using angular momentum
- Moment of inertia using kinetic energy and angular momentum
- Moment of inertia using masses of diatomic molecule and bond length
- Moment of inertia using reduced mass
- Moment of Inertia using Rotational Constant
- Moment of Inertia using Rotational Energy
- Reduced mass using moment of inertia

Reduced mass and radius of diatomic molecule

- Mass 1 given moment of inertia
- Mass 1 of diatomic molecule
- Mass 2 given moment of inertia
- Mass 2 of diatomic molecule
- Radius 1 given moment of inertia
- Radius 1 given rotational frequency
- Radius 1 of rotation
- Radius 1 of rotation in terms of masses and bond length
- Radius 2 given moment of inertia
- Radius 2 given rotational frequency
- Radius 2 of rotation
- 3 More formulas!

Rotational Energy

- Beta in terms of rotational level
- Beta using rotational energy
- Centrifugal Distortion constant using rotational energy
- Energy of rotational transitions between rotational levels
- Rotational constant
- Rotational constant in terms of energy
- Rotational constant in terms of wave number
- Rotational constant using energy of transitions
- Rotational energy
- Rotational energy using centrifugal distortion
- Rotational energy using rotational constant
- 1 More formulas!

Vibrational spectroscopy

- Anharmonic potential constant
- Anharmonicity constant given first overtone frequency
- Anharmonicity constant given fundamental frequency
- Anharmonicity constant given second overtone frequency
- First overtone frequency
- Fundamental frequency of vibrational transitions
- Maximum vibrational number using Anharmonicity constant
- Maximum vibrational quantum number
- Rotational constant for vibrational state
- Rotational constant related to equilibrium
- Second overtone frequency
- 11 More formulas!

Vibrational energy levels

- Anharmonicity constant given dissociation energy
- Dissociation energy in terms of vibrational wavenumber
- Dissociation energy of potential
- Dissociation energy of potential using zero point energy
- Energy of Vibrational transitions
- Maximum vibrational quantum number given dissociation energy
- Vibrational Energy
- Vibrational energy in terms of vibrational wave number
- Vibrational energy using Anharmonicity constant
- Vibrational energy using dissociation energy
- Vibrational frequency in terms of vibrational energy
- 5 More formulas!

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