Calculators Created by Akshada Kulkarni

Verified Activity of hydrogen ion when pH is given

Go

Verified Concentration of hydrogen ion when pH is given

Go

Verified Concentration of hydroxyl ion when pOH is given

Go

Verified Dissociation constant of weak acid when pKa is given

Go

Verified Dissociation constant of weak base when pKb is given

Go

Verified pH when activity of hydrogen ion is given

Go

Verified pH when concentration of hydrogen ion is given

Go

Verified pKa when dissociation constant of weak acid is given

Go

Verified pKb when dissociation constant of weak base is given

Go

Verified pOH when concentration of hydroxyl ion is given

Go

Created Amplitude Sensitivity of Modulator

Go

Created Bandwidth in DSB-SC

Go

Created Bandwidth of SSB

Go

Created Bandwidth of VSB

Go

Created Carrier Power

Go

Created Lower Sideband Power

Go

Created Lower Sideband Power when carrier power is given

Go

Created Maximum amplitude

Go

Created Minimum Amplitude

Go

Created Modulation index when amplitude sensitivity is given

Go

Created Modulation index when maximum and minimum amplitude is given

Go

Created Number of quantization levels

Go

Created Number of Samples

Go

Created Quantization step size

Go

Created Sampling period

Go

Created Sampling Theorem

Go

Created Signal to noise ratio

Go

Created Total Current

Go

Created Total Power when modulation index is given

Go

Created Transmitted power of DSB-SC

Go

Created Transmitted power of DSB-SC when modulation index is given

Go

Created Transmitted power of SSB

Go

Created Transmitted power of SSB when modulation index is given

Go

Created Upper Sideband Power when carrier power is given

Go

10 More Analog communications Calculators

Go

Verified Angular momentum in terms of kinetic energy

Go

Verified Angular momentum using moment of inertia

Go

Verified Angular velocity in terms of inertia and kinetic energy

Go

Verified Angular velocity of diatomic molecule

Go

Verified Angular velocity using angular momentum and inertia

Go

Verified Angular velocity when kinetic energy is given

Go

Verified Rotational frequency in terms of velocity 1

Go

Verified Rotational frequency in terms of velocity 2

Go

Verified Rotational frequency when angular frequency is given

Go

Verified pKa of Salt of Weak acid and Strong base

Go

5 More Anionic Salt Hydrolysis Calculators

Go

Verified Actual work done when Compressor efficiency and isentropic shaft work is given

Go

Verified Actual work done when Turbine efficiency and isentropic shaft work is given

Go

Verified Change in enthalpy in the turbine (expanders)

Go

Verified Compressor efficiency when actual and shaft work (isentropic) is given

Go

Verified Mass flow rate of a stream in the turbine (expanders)

Go

Verified Turbine efficiency when actual and shaft work (isentropic) is given

Go

Verified Work done (isentropic condition) when Compressor efficiency and actual shaft work is given

Go

Verified Work done (isentropic condition) when Turbine efficiency and actual shaft work is given

Go

Verified Work done rate (isentropic condition) for adiabatic compression process when Cp is given

Go

Verified Work done rate (isentropic condition) for adiabatic compression process when γ is given

Go

Verified Work done rate by a turbine (expanders)

Go

12 More Application of thermodynamics to flow processes Calculators

Go

Created Activation energy for backward reaction

Go

Created Activation energy for forward reaction

Go

Created Arrhenius equation

Go

Created Arrhenius equation for backward equation

Go

Created Arrhenius equation for forward reaction

Go

Created Backward reaction rate constant in terms of Arrhenius equation

Go

Created Enthalpy of chemical reaction

Go

Created Enthalpy of chemical reaction at absolute temperatures

Go

Created Enthalpy of chemical reaction using equilibrium constants

Go

Created Equilibrium constant 2 using activation energy of reaction

Go

Created Equilibrium constant 2 using enthalpy of reaction

Go

Created Equilibrium constant at temperature T1

Go

Created Equilibrium constant at temperature T2

Go

Created Equilibrium constant in terms of Arrhenius equation

Go

Created Forward reaction rate constant in terms of Arrhenius equation

Go

Created Pre-exponential factor for backward reaction in terms of Arrhenius equation

Go

Created Pre-exponential factor for forward reaction in terms of Arrhenius equation

Go

Created Pre-exponential factor in Arrhenius equation

Go

Created Pre-exponential factor in Arrhenius equation for backward reaction

Go

Created Pre-exponential factor in Arrhenius equation for forward reaction

Go

Created Beer- Lambert law in terms of intensity of radiation

Go

Created Beer-Lambert Law

Go

Created Concentration of solution

Go

Created Concentration of solution when intensities of radiation is given

Go

Created Intensity of incident radiation

Go

Created Intensity of incident radiation when concentration of solution is given

Go

Created Intensity of transmitted radiation

Go

Created Intensity of transmitted radiation when concentration of solution is given

Go

Created Molar extinction coefficient

Go

Created Molar extinction coefficient when intensities of radiation is given

Go

Created Molar extinction coefficient when slope of plot is given

Go

Created Slope of absorbance vs concentration plot

Go

Created Thickness of the cell

Go

Created Thickness of the cell when intensities of radiation is given

Go

Created Thickness of the cell when slope is given

Go

Verified Total volume of gas adsorbed at equilibrium by BET equation

Go

Verified Volume of monolayer gas by BET equation

Go

Created Angular velocity of electron

Go

Created Electrostatic force between nucleus and electron

Go

Created Ionization potential

Go

Created Kinetic energy of electron when atomic number is given

Go

Created Orbital frequency of an electron

Go

Created Orbital frequency when velocity of electron is given

Go

Created Potential energy of electron when atomic number is given

Go

Created Radius of Bohr's orbit

Go

Created Radius of Bohr's orbit for the Hydrogen atom

Go

Created Radius of Bohr's orbit when atomic number is given

Go

Created Radius of orbit when angular velocity is given

Go

Created Radius of orbit when kinetic energy of electron is given

Go

Created Radius of orbit when potential energy of electron is given

Go

Created Radius of orbit when time period of electron is given

Go

Created Radius of orbit when total energy of electron is given

Go

Created Time period of revolution of electron

Go

Created Total energy of electron in nth orbit

Go

Created Total energy of electron when atomic number is given

Go

Created Velocity of electron in Bohr's orbit

Go

Created Velocity of electron in orbit when angular velocity is given

Go

Created Velocity of electron when time period of electron is given

Go

Created Wave number when frequency of photon is given

Go

13 More Bohr's atomic model Calculators

Go

Verified Bond length

Go

Verified Bond length in terms of masses and radius 1

Go

Verified Bond length in terms of masses and radius 2

Go

Verified Bond length of diatomic molecule in rotational spectrum

Go

Verified Bond length using moment of inertia

Go

Verified Bond length using reduced mass

Go

Verified Radius 1 of rotation when bond length is given

Go

Verified Radius 2 of rotation when bond length is given

Go

Verified Concentration of acid in acidic buffer using Henderson's equation

Go

Verified Concentration of base in basic buffer using Henderson's equation

Go

Verified Concentration of salt in acidic buffer using Henderson's equation

Go

Verified Concentration of salt in basic buffer using Henderson's equation

Go

Verified pH of acidic buffer using Henderson's equation

Go

Verified pKa of acidic buffer using Henderson's equation

Go

Verified pKb of basic buffer using Henderson's equation

Go

Verified pOH of basic buffer using Henderson's equation

Go

Verified pKb of Salt of Strong Acid and Weak base

Go

5 More Cationic Salt Hydrolysis Calculators

Go

Verified Average time of completion for first order reaction

Go

Verified Average time of completion when half-time is given

Go

Verified Concentration of time at half-time for zero order reaction

Go

Verified Concentration of time of zero order reaction

Go

Verified Graphical representation for time for completion

Go

Verified Half time completion of first order reaction

Go

Verified Half time for completion when average time is given

Go

Verified Initial concentration of zero order reaction

Go

Verified Initial concentration of zero order reaction at half time

Go

Verified Initial concentration when time for completion at half time is given

Go

Verified Order of reaction with respect to reactant A

Go

Verified Order of reaction with respect to reactant B

Go

Verified Overall order of reaction

Go

Verified Rate constant at half time for first order reaction

Go

Verified Rate constant at half time of zero order reaction

Go

Verified Rate constant by titration method for first order reaction

Go

Verified Rate constant by titration method for zero order reaction

Go

Verified Rate constant for different products for second order reaction

Go

Verified Rate constant for same product for second order reaction

Go

Verified Rate constant for the same product by titration method for second order reaction

Go

Verified Rate constant of first order reaction using logarithm to the base 10

Go

Verified Rate constant of zero-order reaction

Go

Verified Rate constant under constant pressure and temperature for zero order reaction

Go

Verified Rate constant when average time is given

Go

Verified Rate of chemical reaction

Go

Verified Time for completion by titration method for first order reaction

Go

Verified Time for completion by titration method for zero order reaction

Go

Verified Time for completion for first order when rate constant and initial concentration is given

Go

Verified Time for completion for the same product by titration method for second order reaction

Go

Verified Time for completion of first order reaction

Go

Verified Time for completion of zero order reaction

Go

Verified Time for completion of zero order reaction at half time

Go

Verified Time of completion for different products for second order reaction

Go

Verified Time of completion for same product for second order reaction

Go

Verified Total change in concentration of reaction

Go

Verified Total time taken during reaction

Go

12 More Chemical Kinetics Calculators

Go

Verified August–Roche–Magnus formula

Go

Verified Boiling Point using Trouton's Rule in terms of enthalpy

Go

Verified Boiling Point using Trouton's Rule in terms of Latent Heat

Go

Verified Boiling Point using Trouton's Rule in terms of Specific Latent Heat

Go

Verified Enthalpy of vaporization using Trouton's Rule

Go

Verified Enthalpy using integrated form of Clausius-Clapeyron Equation

Go

Verified Entropy of vaporization using Trouton's Rule

Go

Verified Final Pressure using integrated form of Clausius-Clapeyron Equation

Go

Verified Final Temperature using integrated form of Clausius-Clapeyron Equation

Go

Verified Initial Pressure using integrated form of Clausius-Clapeyron Equation

Go

Verified Initial Temperature using integrated form of Clausius-Clapeyron Equation

Go

Verified Latent heat of evaporation of water near standard temperature and pressure

Go

Verified Latent Heat of vaporization for transitions

Go

Verified Latent Heat using integrated form of Clausius-Clapeyron Equation

Go

Verified Latent Heat using Trouton's Rule

Go

Verified Pressure for transitions between gas and condensed phase

Go

Verified Ratio of vapour pressure using integrated form of Clausius-Clapeyron Equation

Go

Verified Saturation vapor pressure near standard temperature and pressure

Go

Verified Slope of coexistence curve in terms of enthalpy

Go

Verified Slope of coexistence curve in terms of entropy

Go

Verified Slope of coexistence curve in terms of Latent Heat

Go

Verified Slope of coexistence curve in terms of pressure and latent heat

Go

Verified Slope of coexistence curve in terms of Specific Latent Heat

Go

Verified Slope of coexistence curve of Water Vapor near standard temperature and pressure

Go

Verified Specific latent heat of evaporation of water near standard temperature and pressure

Go

Verified Specific Latent Heat using integrated form of Clausius-Clapeyron Equation

Go

Verified Specific Latent Heat using Trouton's Rule

Go

Verified Temperature for transitions

Go

Verified Temperature in evaporation of water near standard temperature and pressure

Go

Verified Density using relative size of fluctuations in particle density

Go

Verified Density when thermal pressure coefficient, compressibility factors and Cp are given

Go

Verified Density when thermal pressure coefficient, compressibility factors and Cv are given

Go

Verified Isentropic compressibility when thermal pressure coefficient and Cp is given

Go

Verified Isentropic compressibility when thermal pressure coefficient and Cv is given

Go

Verified Isothermal compressibility when thermal pressure coefficient and Cp is given

Go

Verified Isothermal compressibility when thermal pressure coefficient and Cv is given

Go

Verified Molar Heat Capacity at constant Pressure when thermal pressure coefficient is given

Go

Verified Molar Heat Capacity at constant Volume when thermal pressure coefficient is given

Go

Verified Relative size of fluctuations in particle density

Go

Verified Temperature when thermal pressure coefficient, compressibility factors and Cp are given

Go

Verified Temperature when thermal pressure coefficient, compressibility factors and Cv are given

Go

Verified Thermal pressure coefficient using compressibility factors and Cp

Go

Verified Thermal pressure coefficient using compressibility factors and Cv

Go

Verified Volume using relative size of fluctuations in particle density

Go

24 More Compressibility Calculators

Go

Created Compton shift

Go

Created Compton shift when wavelength is given

Go

Created Compton wavelength of electron

Go

Created Compton wavelength when Compton shift is given

Go

Created Wavelength of incident beam when Compton shift is given

Go

Created Wavelength of scattered beam when Compton shift is given

Go

Verified Mass of solvent using molality

Go

Verified Molality

Go

Verified Molarity in terms of normality and valency factor

Go

Verified Molarity of substance

Go

Verified Molarity when acidity and normality is given

Go

Verified Molarity when basicity and normality is given

Go

Verified Molarity when molality of solution is given

Go

Verified Molarity when normality and equivalent mass is given

Go

Verified Molarity when normality and number of equivalents is given

Go

Verified Mole fraction of component 1 in a binary solution

Go

Verified Mole fraction of solute in terms of molarity

Go

Verified Mole fraction of solvent when molality is given

Go

Verified Number of moles of solute using molality

Go

16 More Concentration terms Calculators

Go

Created Bandwidth frequency

Go

Created Damped natural frequency

Go

Created Damping ratio / Damping factor

Go

Created Delay time

Go

Created Maximum Overshoot

Go

Created Number of oscillations

Go

Created Peak time

Go

Created Resonant frequency

Go

Created Resonant peak

Go

Created Rise time

Go

Created Rise time when delay time is given

Go

Created Setting time when tolerance is 2%

Go

Created Setting time when tolerance is 5%

Go

Created Time period of oscillations

Go

1 More Control Systems Calculators

Go

Verified Bond Angle between Bond pair and Lone pair of electrons in terms of p-character

Go

Verified Bond Angle between Bond pair and Lone pair of electrons in terms of s-character

Go

Verified Bond Order for Molecules Showing Resonance

Go

Verified Formal Charge on an atom

Go

Verified Fraction of p-character when bond angle is given

Go

Verified Fraction of s-character when bond angle is given

Go

Verified Number of bonding electrons when Formal Charge is given

Go

Verified Number of non-bonding electrons when Formal Charge is given

Go

Verified Number of valence electrons when Formal Charge is given

Go

Verified Percentage of p-character when bond angle is given

Go

Verified Percentage of s-character when bond angle is given

Go

Verified Total no. of bonds between in all structures when Bond Order is given

Go

Verified Total no. of Resonating Structures when Bond Order is given

Go

Created de-Broglie wavelength for an electron when potential is given

Go

Created de-Broglie wavelength of charged particle when potential is given

Go

Created De-Broglie wavelength of particle in circular orbit

Go

Created De-Broglie's wavelength when velocity of particle is given

Go

Created Einstein's mass-energy relation

Go

Created Energy of a particle

Go

Created Energy of particle when de-Broglie wavelength is given

Go

Created Kinetic energy when de-Broglie wavelength is given

Go

Created Number of revolutions of an electron

Go

Created Potential when de-Broglie wavelength is given

Go

Created Potential when de-Broglie wavelength of electron is given

Go

Created Relation between de-Broglie wavelength and kinetic energy of particle

Go

1 More de-Broglie hypothesis Calculators

Go

Verified Absolute density

Go

Verified Density of gas

Go

Verified Density of gas particle when vapour density is given

Go

Verified Density of hydrogen when vapour density is given

Go

Verified Density of solution using molarity of solution

Go

Verified Density of solution when molarity and molality is given

Go

Verified Density of substance when specific gravity is given

Go

Verified Molar mass of gas when absolute density at STP is given

Go

Verified Molar mass of gas when vapour density is given

Go

Verified Molar volume of gas when absolute density is given

Go

Verified Pressure of gas when gas density is given

Go

Verified Temperature of gas when gas density is given

Go

Verified Vapour density using density of gas substance

Go

4 More Density for gases Calculators

Go

Verified Cryoscopic Constant in terms of Latent Heat of Fusion

Go

Verified Cryoscopic Constant in terms of Molar Enthalpy of Fusion

Go

Verified Cryoscopic Constant when Depression in Freezing Point is given

Go

Verified Depression in Freezing Point of the solvent

Go

Verified Freezing point of solvent when Cryoscopic Constant and Latent Heat of Fusion is given

Go

Verified Freezing point of solvent when Cryoscopic Constant and Molar Enthalpy of Fusion is given

Go

Verified Latent Heat of Fusion when Freezing point of solvent is given

Go

Verified Molality when Depression in Freezing Point is given

Go

Verified Molar Enthalpy of Fusion when Freezing point of solvent is given

Go

Verified Molar Mass of solvent when the Cryoscopic Constant is given

Go

Verified Van't Hoff equation for Depression in Freezing Point of electrolyte

Go

Verified Van't Hoff Factor of an Electrolyte in terms of Depression in Freezing Point

Go

Created Attenuation when power of 2 signals are given

Go

Created Attenuation when voltage of 2 signals are given

Go

Created Bandwidth of ASK when baud rate is given

Go

Created Bandwidth of ASK when bit rate is given

Go

Created Bandwidth of FSK

Go

Created Bandwidth of Multilevel FSK

Go

Created Bandwidth of PSK

Go

Created Bandwidth of raised cosine filter

Go

Created Baud Rate

Go

Created Bit rate

Go

Created Bit rate of raised cosine filter

Go

Created Bit rate of raised cosine filter when time period is given

Go

Created Bit rate when bit time is given

Go

Created Probability error of BPSK

Go

Created Probability error of coherent FSK

Go

Created Probability error of DPSK

Go

Created Probability error of non coherent FSK

Go

Created Symbol time

Go

Created Distance of closest approach

Go

Created Velocity of alpha particle using distance of closest approach

Go

Created Acceleration when force and electric field is present

Go

Created Angular Velocity of a particle in a magnetic field

Go

Created Base current using Current amplification Factor

Go

Created Base Transport Factor

Go

Created Base Transport Factor using current amplification factor

Go

Created Collector current using Base transport factor

Go

Created Collector current using Current amplification factor

Go

Created Collector to emitter leakage current

Go

Created Common collector current gain

Go

Created Conductivity in Extrinsic Semiconductors (for n-type)

Go

Created Conductivity in Extrinsic Semiconductors (for p-type)

Go

Created Conductivity in Metals

Go

Created Conductivity in Semiconductors

Go

Created Current Amplification factor

Go

Created Current Amplification factor using Base transport factor

Go

Created Current density due to electrons

Go

Created Current density due to holes

Go

Created Current density in semiconductors

Go

Created Diameter of a cycloid

Go

Created Diode Equation

Go

Created Drain current

Go

Created Einstein Equation for electrons

Go

Created Einstein Equation for holes

Go

Created Electric Field Intensity

Go

Created Electron Diffusion Length

Go

Created Electrostatic Deflection Sensitivity

Go

Created Emitter Current

Go

Created Emitter current using Base Transport Factor

Go

Created Emitter Efficiency

Go

Created Hole Diffusion Length

Go

Created Intrinsic carrier concentration

Go

Created Intrinsic carrier concentration using hole and electron carrier concentration

Go

Created Magnetic Deflection Sensitivity

Go

Created Majority Carrier Concentration

Go

Created Mobility of charge carriers

Go

Created Path of a particle in cycloidal plane

Go

Created Radius of electron on circular path

Go

Created Saturation drain current

Go

Created Saturation voltage between drain and source

Go

Created Self Resonance Frequency

Go

Created Thermal Voltage

Go

Created Thermal Voltage

Go

Created Time period of an electron

Go

Created Transition capacitance

Go

Created Velocity of an electron due to voltage

Go

Created Velocity of an electron in force fields

Go

Created Zener Diode Regulator

Go

Created Zener Resistance or Zener Impedance

Go

3 More EDC Calculators

Go

Verified Cell constant if conductance and conductivity given

Go

Verified Cell constant if resistance and resistivity is given

Go

Verified Conductance

Go

Verified Conductance if cell constant is given

Go

Verified Conductivity if cell constant is given

Go

Verified Current Efficiency

Go

Verified Degree of dissociation

Go

Verified Degree of dissociation if concentration and dissociation constant of weak electrolyte are given

Go

Verified Degree of dissociation of acid 1 if dissociation constant of both acids is given

Go

Verified Degree of dissociation of acid 2 if dissociation constant of both acids is given

Go

Verified Degree of dissociation of base 1 if dissociation constant of both base are given

Go

Verified Degree of dissociation of base 2 if dissociation constant of both base are given

Go

Verified Dissociation constant if degree of dissociation of weak electrolyte is given

Go

Verified Dissociation constant of acid 1 if degree of dissociation of both the acids are given

Go

Verified Dissociation constant of acid 2 if degree of dissociation of both the acids are given

Go

Verified Dissociation constant of base 1 if degree of dissociation of both the base are given

Go

Verified Dissociation constant of base 2 if degree of dissociation of both the base are given

Go

Verified Electrical Energy of Electrochemical Cell

Go

Verified Electrode Potential (when gibbs free energy is given)

Go

Verified EMF of a due cell

Go

Verified Equilibrium Constant (when degree of dissociation is given)

Go

Verified Equivalent Conductance

Go

Verified Gibbs free energy change

Go

Verified Ionic Mobility

Go

Verified Kohlrausch Law

Go

Verified Limiting Molar Conductivity of Anions

Go

Verified Limiting Molar Conductivity of Cations

Go

Verified Mass of Primary product formed at electrode

Go

Verified Molar concentration if dissociation constant of weak electrolyte is given

Go

Verified Molar Conductance

Go

Verified Molar conductivity (when molarity is given)

Go

Verified Nernst Equation

Go

Verified Nernst Equation (for solid ,liquids & gases at 1 atom)

Go

Verified Resistance if cell constant is given

Go

Verified Resistivity

Go

Verified Resistivity if cell constant is given

Go

Verified Solubility

Go

Verified Solubility Product

Go

Verified Specific Conductance

Go

Verified Transport Number for Anion

Go

Verified Transport Number for Cation

Go

90 More Electrochemistry Calculators

Go

Verified Ebullioscopic Constant in terms of Latent Heat of Vaporization

Go

Verified Ebullioscopic Constant in terms of Molar Enthalpy of Vaporization

Go

Verified Ebullioscopic Constant when Elevation in Boiling Point is given

Go

Verified Elevation in Boiling Point of the Solvent

Go

Verified Latent Heat of Vaporization when Boiling point of solvent is given

Go

Verified Molality when Elevation in Boiling Point is given

Go

Verified Van't Hoff equation for Elevation in Boiling Point of electrolyte

Go

Verified Van't Hoff Factor of an Electrolyte in terms of Elevation in Boiling Point

Go

4 More Elevation in Boiling Point Calculators

Go

Verified Acentric factor using B(0) and B(1) of Pitzer correlations for second virial coefficient

Go

Verified Acentric factor using Pitzer correlations for the compressibility factor

Go

Verified Compressibility factor using Pitzer correlations for the compressibility factor

Go

Verified Compressibility factor when reduced second virial coefficient is given

Go

Verified Reduced second virial coefficient using B(0) and B(1)

Go

Verified Reduced second virial coefficient when the compressibility factor is given

Go

15 More Equation of states Calculators

Go

Created Backward reaction rate constant

Go

Created Change in number of moles

Go

Created Equilibrium concentration of substance A

Go

Created Equilibrium concentration of substance B

Go

Created Equilibrium concentration of substance C

Go

Created Equilibrium concentration of substance D

Go

Created Equilibrium constant

Go

Created Equilibrium constant with respect to molar concentrations

Go

Created Forward reaction rate constant

Go

Created Number of moles of gaseous products

Go

Created Number of moles of gaseous reactants

Go

Created Equilibrium constant with respect to mole fraction

Go

Created Equilibrium mole fraction of substance A

Go

Created Equilibrium mole fraction of substance B

Go

Created Equilibrium mole fraction of substance C

Go

Created Equilibrium mole fraction of substance D

Go

Created Equilibrium constant with respect to partial pressure

Go

Created Equilibrium partial pressure of substance A

Go

Created Equilibrium partial pressure of substance B

Go

Created Equilibrium partial pressure of substance C

Go

Created Equilibrium partial pressure of substance D

Go

Verified Atomicity using Molar Heat Capacity at constant Pressure and Volume of Linear Molecule

Go

Verified Atomicity using Molar Vibrational Energy of Linear Molecule

Go

Verified Atomicity using Molar Vibrational Energy of Non-Linear Molecule

Go

Verified Atomicity using Ratio of Molar Heat Capacity of Linear Molecule

Go

Verified Atomicity using Ratio of Molar Heat Capacity of Non-Linear Molecule

Go

Verified Atomicity using Vibrational Energy of Linear Molecule

Go

Verified Atomicity using Vibrational Energy of Non-Linear Molecule

Go

Verified Atomicity using Vibrational Mode of Linear Molecule

Go

Verified Atomicity using Vibrational Mode of Non-Linear Molecule

Go

Verified Atomicity when Molar Heat Capacity at constant pressure of Linear Molecule is given

Go

Verified Atomicity when Molar Heat Capacity at constant pressure of Non-Linear Molecule is given

Go

Verified Average thermal energy of linear polyatomic gas molecule

Go

Verified Average thermal energy of linear polyatomic gas molecule in terms of atomicity only

Go

Verified Average thermal energy of non-linear polyatomic gas molecule

Go

Verified Average thermal energy of non-linear polyatomic gas molecule in terms of atomicity only

Go

Verified Degree of Freedom in terms of Molar Heat Capacity at constant pressure only

Go

Verified Degree of Freedom in terms of Molar Heat Capacity at constant volume only

Go

Verified Degree of Freedom when Ratio of Molar Heat Capacity is given

Go

Verified Heat Capacity

Go

Verified Internal Molar Energy of Linear Molecule

Go

Verified Internal Molar Energy of Non-Linear Molecule

Go

Verified Molar Heat Capacity at constant pressure when only Degree of Freedom is given

Go

Verified Molar Heat Capacity at constant volume of Linear Molecule

Go

Verified Molar Heat Capacity at constant volume of Non-Linear Molecule

Go

Verified Molar Heat Capacity at constant volume when only Degree of Freedom is given

Go

Verified Molar Vibrational Energy of Linear Molecule

Go

Verified Molar Vibrational Energy of Non-Linear Molecule

Go

Verified Number of modes in Linear Molecule

Go

Verified Number of modes in Non-Linear Molecule

Go

Verified Rotational Energy of Linear Molecule

Go

Verified Rotational Energy of Non-Linear Molecule

Go

Verified Specific Heat Capacity

Go

Verified Temperature using Average thermal energy of linear polyatomic gas molecule

Go

Verified Temperature using Average thermal energy of non-linear polyatomic gas molecule

Go

Verified Temperature using Molar Vibrational Energy of Linear Molecule

Go

Verified Temperature using Molar Vibrational Energy of Non-Linear Molecule

Go

Verified Temperature using Vibrational Energy of Linear Molecule

Go

Verified Temperature using Vibrational Energy of Non-Linear Molecule

Go

Verified Total Kinetic Energy

Go

Verified Translational Energy

Go

Verified Vibrational energy modeled as harmonic oscillator

Go

Verified Vibrational Energy of Linear Molecule

Go

Verified Vibrational Energy of Non-Linear Molecule

Go

Verified Vibrational Mode of Linear Molecule

Go

Verified Vibrational Mode of Non-Linear Molecule

Go

30 More Equipartition Principle and Heat Capacity Calculators

Go

Verified Acidity when equivalent weight is given

Go

Verified Basicity when equivalent weight is given

Go

Verified Equivalent weight for acids

Go

Verified Equivalent weight for base

Go

Verified Equivalent weight of oxidising agent

Go

Verified Equivalent weight of reducing agent

Go

Verified Number of electrons in valence shell

Go

Verified Number of electrons left after bonding

Go

Verified Number of moles of electron gained using equivalent weight of oxidising agent

Go

Verified Number of moles of electron lost using equivalent weight of reducing agent

Go

Verified Oxidation number

Go

Verified Valency factor when equivalent weight is given

Go

1 More Equivalent weight Calculators

Go

Verified Actual enthalpy when excess and ideal solution enthalpy is given

Go

Verified Actual entropy when excess and ideal solution entropy is given

Go

Verified Actual Gibbs energy when excess and ideal solution Gibbs energy is given

Go

Verified Actual volume when excess and ideal solution volume is given

Go

Verified Excess enthalpy when actual and ideal solution enthalpy is given

Go

Verified Excess entropy when actual and ideal solution entropy is given

Go

Verified Excess Gibbs energy when actual and ideal solution Gibbs energy is given

Go

Verified Excess volume when actual and ideal solution volume is given

Go

Verified Ideal solution enthalpy when excess and actual solution enthalpy is given

Go

Verified Ideal solution entropy when excess and actual solution entropy is given

Go

Verified Ideal solution Gibbs energy when excess and actual solution Gibbs energy is given

Go

Verified Ideal solution volume when excess and actual solution volume is given

Go

Verified Saturated pressure of comp. 1 when second virial coefficient and sat. vapour fugacity coefficient

Go

Verified Saturated pressure of comp. 2 when second virial coefficient and sat. vapour fugacity coefficient

Go

Verified Saturated vapour fugacity coefficient of comp. 1 when sat. pressure and second virial coefficient

Go

Verified Saturated vapour fugacity coefficient of comp. 2 when sat. pressure and second virial coefficient

Go

Verified Second virial coefficient of comp. 1 when sat. pressure and saturated vapour fugacity coefficient

Go

Verified Second virial coefficient of comp. 2 when saturated pressure and sat. vapour fugacity coefficient

Go

3 More Fitting Activity Coefficient Models to VLE Data Calculators

Go

Verified Fugacity of liq. phase species using Poynting factor correlation

Go

Verified Fugacity of liq. phase species when Poynting factor is given

Go

Verified Poynting factor when Saturated fugacity coeff. and Fugacity of liq. phase species is given

Go

Verified Saturated fugacity coeff. using Poynting factor correlation and Fugacity of liq. phase species

Go

Verified Saturated fugacity coeff. when Poynting factor and Fugacity of liq. phase species is given

Go

Verified Saturated pressure using Poynting factor and Fugacity of liq. phase species

Go

1 More Fugacity and fugacity coefficient Calculators

Go

Verified Fugacity coefficient when residual Gibbs free energy is given

Go

Verified Fugacity when Gibbs free energy, ideal Gibbs free energy and pressure is given

Go

Verified Fugacity when residual Gibbs free energy and pressure is given

Go

Verified Gibbs free energy when ideal Gibbs free energy, pressure and fugacity is given

Go

Verified Ideal Gibbs free energy when Gibbs free energy, pressure and fugacity coefficient is given

Go

Verified Pressure when Gibbs free energy, ideal Gibbs free energy and fugacity is given

Go

Verified Pressure when residual Gibbs free energy and fugacity is given

Go

Verified Residual Gibbs free energy when fugacity and pressure is given

Go

Verified Residual Gibbs free energy when fugacity coefficient is given

Go

Verified Temperature when actual and ideal Gibbs free energy and fugacity coefficient is given

Go

Verified Temperature when Gibbs free energy, ideal Gibbs free energy, pressure and fugacity is given

Go

Verified Temperature when residual Gibbs free energy and fugacity coefficient is given

Go

Verified Temperature when residual Gibbs free energy and fugacity is given

Go

3 More Fugacity and fugacity coefficient using Residual Gibbs energy Calculators

Go

Verified Number of Components considering reactions and constraints

Go

Created Angle of light ray when uncertainty in momentum is given

Go

Created Angle of light ray when uncertainty in position is given

Go

Created Early form of Uncertainty principle

Go

Created Mass a of microscopic particle in uncertainty relation

Go

Created Mass b of microscopic particle in uncertainty relation

Go

Created Mass in Uncertainty principle

Go

Created Momentum of a particle

Go

Created Uncertainty in energy

Go

Created Uncertainty in momentum

Go

Created Uncertainty in momentum when angle of light ray is given

Go

Created Uncertainty in momentum when uncertainty in velocity is given

Go

Created Uncertainty in position

Go

Created uncertainty in position of particle a

Go

Created Uncertainty in position of particle b

Go

Created Uncertainty in position when angle of light ray is given

Go

Created Uncertainty in position when uncertainty in velocity is given

Go

Created Uncertainty in time

Go

Created Uncertainty in velocity

Go

Created Uncertainty in velocity of particle a

Go

Created Uncertainty in velocity of particle b

Go

Created Wavelength of light ray when uncertainty in position is given

Go

Created Wavelength of particle when momentum is given

Go

Created Wavelength when uncertainty in momentum is given

Go

Created Energy gap between two orbits

Go

Created Energy gap when energy of two levels are given

Go

Created Energy of electron in final orbit

Go

Created Energy of electron in initial orbit

Go

Created Energy of stationary state of hydrogen

Go

Created Frequency associated with a photon

Go

Created Frequency of photon when energy levels are given

Go

Created Rydberg's Equation

Go

Created Rydberg's Equation for Balmer Series

Go

Created Rydberg's Equation for Brackett Series

Go

Created Rydberg's Equation for hydrogen

Go

Created Rydberg's Equation for Lyman series

Go

Created Rydberg's Equation for Paschen Series

Go

Created Rydberg's Equation for Pfund Series

Go

Created Wave number associated with photon

Go

Created Wave number of spectral lines

Go

Created Wavelength of all spectral lines

Go

1 More Hydrogen spectrum Calculators

Go

Verified pKa of Salt of Weak Acid and Weak base

Go

Verified pKb of Salt of Weak Acid and Weak base

Go

5 More Hydrolysis for weak acid and weak base Calculators

Go

Verified Constant of hydrolysis when ionic product of water and acid ionization const. of weak acid is given

Go

Verified Constant of hydrolysis when ionic product of water and basic ionization const. of weak base is given

Go

Verified Ionic product of water when constant of hydrolysis and acid ionization const. of weak acid is given

Go

Verified Ionic product of water when constant of hydrolysis and basic ionization const. of weak base is given

Go

2 More Hydrolysis of cations or anions Calculators

Go

Verified Henry law constant when mole fraction and partial pressure of gas is given in Henry Law

Go

Verified Mole fraction of a dissolved gas using Henry Law

Go

Verified Partial pressure using Henry Law

Go

18 More Ideal Gas Calculators

Go

Verified Ideal gas enthalpy using Ideal gas Mixture model in binary system

Go

Verified Ideal gas entropy using Ideal gas Mixture model in binary system

Go

Verified Ideal gas Gibbs energy using Ideal gas Mixture model in binary system

Go

Verified Ideal gas volume using Ideal gas Mixture model in binary system

Go

Verified Ideal solution enthalpy using Ideal Solution model in binary system

Go

Verified Ideal solution entropy using Ideal Solution model in binary system

Go

Verified Ideal solution Gibbs energy using Ideal Solution model in binary system

Go

Verified Ideal solution volume using Ideal Solution model in binary system

Go

Verified Molecular Mass of a liquid forming an immiscible mixture with Water

Go

Verified Molecular Mass of a liquid in a mixture of 2 immiscible liquids when weights of liquids are known

Go

Verified Partial Vapour Pressure of a immiscible liquid when partial pressure of other is known

Go

Verified Ratio of Molecular Mass of 2 immiscible liquids

Go

Verified Ratio of molecular masses of water to a liquid forming a immiscible mixture

Go

Verified Ratio of partial pressure of 2 immiscible liquids in terms their no. of moles

Go

Verified Ratio of partial vapour pressures of 2 Immiscible Liquids in terms of weight and molecular mass

Go

Verified Ratio of partial vapour pressures of water with a liquid forming a immiscible mixture

Go

Verified Ratio of weights of 2 immiscible liquids forming a mixture

Go

Verified Ratio of weights of water to a liquid forming a immiscible mixture

Go

Verified Total Pressure of a mixture of a liquid with water when vapour pressure of water is known

Go

Verified Total Pressure of a mixture of water with a liquid whose vapour pressure is given

Go

Verified Total Pressure of mixture of two Immiscible Liquids

Go

Verified Total Vapour Pressure of mixture of when partial pressure of one liquid is known

Go

Verified Vapour Pressure of a liquid forming an immiscible mixture with Water

Go

Verified Vapour Pressure of water forming an immiscible mixture with a liquid

Go

Verified Weight of a liquid in a mixture of 2 immiscible liquids when weight of other liquid is known

Go

Verified Weight of a liquid required to form a immiscible mixture with water

Go

Verified Weight of water required to form a immiscible mixture with a liquid who weight is known

Go

Verified Binomial distribution

Go

Verified Crashing

Go

Verified Early Finish Time

Go

Verified EOQ Manufacturing Model with Shortage

Go

Verified Expected length of non-empty queue

Go

Verified Expected number of customers in the queue

Go

Verified Expected number of customers in the system

Go

Verified Expected waiting time for customers in the queue

Go

Verified Expected waiting time for customers in the system

Go

Verified Free Float

Go

Verified Independent float

Go

Verified Independent float given slack

Go

Verified Late Finish Time

Go

Verified New number in simplex table

Go

Verified Non-empty queue probability

Go

Verified Normal distribution

Go

Verified PERT expected time

Go

Verified Point r on a line

Go

Verified Poisson distribution

Go

Verified Probability of customers exceeding a number

Go

Verified Reorder Point

Go

Verified Standard Deviation

Go

Verified Standard normal variation

Go

Verified Total Float

Go

Verified Total Float given finish times

Go

Verified Total Float given start times

Go

Verified Traffic intensity

Go

Verified Variance

Go

24 More Industrial Engineering Calculators

Go

Verified Ionic Potential

Go

2 More Ionic Bonding Calculators

Go

Verified Kinetic energy in terms of angular momentum

Go

Verified Kinetic energy in terms of inertia and angular velocity

Go

Verified Kinetic energy of system

Go

Verified Kinetic energy when angular velocity is given

Go

Verified Velocity of particle 1

Go

Verified Velocity of particle 1 in terms of K.E

Go

Verified Velocity of particle 2

Go

Verified Velocity of particle 2 in terms of K.E

Go

Verified Average velocity of gas if pressure and density is given

Go

Verified Average velocity of gas if root mean square speed is given

Go

Verified Average velocity of gas if the pressure and volume is given

Go

Verified Average velocity of gas if the pressure and volume is given in 2D

Go

Verified Average velocity of gas if the temperature is given

Go

Verified Average velocity of gas if the temperature is given in 2D

Go

Verified Compressibility factor if molar volume of gases given

Go

Verified Critical pressure if Vander Waal constants are given

Go

Verified Critical pressure without the use of Van der Waals constant

Go

Verified Critical temperature if Vander wall constants are given

Go

Verified Critical temperature without the use of Van der Waals constant

Go

Verified Critical volume when Vander Waal constant b is given

Go

Verified Critical volume without the use of Van der Waals constant

Go

Verified Density of gas if average velocity and pressure given

Go

Verified Density of gas if most probable speed pressure given

Go

Verified Density of gas if most probable speed pressure given in 2D

Go

Verified Density of gas if root mean square speed and pressure given

Go

Verified Density of gas if root mean square speed and pressure given in 2D

Go

Verified Force by gas molecule on the wall of the box

Go

Verified Kinetic energy if n mole of gas given

Go

Verified Kinetic energy in terms of pressure and volume of gas

Go

Verified Kinetic energy of gas 1 if the mixture of gas is present

Go

Verified Kinetic energy of gas 2 if the mixture of two gas is present

Go

Verified Length of the box if force is given

Go

Verified Length of the rectangular box if time of collision is given

Go

Verified mass of a gas molecule in 1D if pressure is given

Go

Verified mass of each gas molecule in 3D box if pressure is given

Go

Verified mass of the gas molecule if force is given

Go

Verified Mean square speed of gas molecule if pressure and volume of gas is given

Go

Verified Molar mass if most probable speed and temperature given

Go

Verified Molar mass if most probable speed and temperature given in 2D

Go

Verified Molar mass of gas if average velocity, pressure, and volume given

Go

Verified Molar mass of gas if most probable speed, pressure and volume given

Go

Verified Molar mass of gas if root mean square speed and pressure given

Go

Verified Molar mass of gas if root mean square speed and temperature given

Go

Verified Molar mass of gas if root mean square speed and temperature given in 1D

Go

Verified Molar mass of gas if root mean square speed and temperature given in 2D

Go

Verified Molar mass of the gas if temperature and average velocity is given

Go

Verified Molar mass of the gas if temperature and average velocity is given in 2D

Go

Verified molar volume of perfect gas in terms of compressibility factor

Go

Verified molar volume of real gas in terms of compressibility factor

Go

Verified Most probable velocity of gas if pressure and density is given

Go

Verified Most probable velocity of gas if pressure and density is given in 2D

Go

Verified Most probable velocity of gas if pressure and volume given

Go

Verified Most probable velocity of gas if RMS velocity given

Go

Verified Most probable velocity of gas if temperature is given

Go

Verified Most probable velocity of gas if temperature is given in 2D

Go

Verified number of gas molecules in 3D box if pressure is given

Go

Verified Number of moles if kinetic energy is given

Go

Verified Number of moles of gas 1 if kinetic energy of both gases are given

Go

Verified Number of moles of gas 2 if kinetic energy of both gases are given

Go

Verified pressure exerted by a single gas molecule in 1D

Go

Verified Pressure of gas if average velocity and density given

Go

Verified Pressure of gas if average velocity and volume given

Go

Verified Pressure of gas if average velocity and volume given in 2D

Go

Verified Pressure of gas if kinetic energy is given

Go

Verified Pressure of gas if most probable speed and density given

Go

Verified Pressure of gas if most probable speed and volume given

Go

Verified Pressure of gas if most probable speed and volume given in 2D

Go

Verified Pressure of gas if root mean square speed and density given

Go

Verified Pressure of gas if root mean square speed and Volume given

Go

Verified Pressure of gas if root mean square speed and Volume given in 1D

Go

Verified Pressure of gas if root mean square speed and Volume given in 2D

Go

Verified Pressure of gas in terms of compressibility factor

Go

Verified pressure of gas molecules in 3D box

Go

Verified RMS velocity if most probable velocity given

Go

Verified RMS velocity if most probable velocity given in 2D

Go

Verified RMS velocity in terms of pressure and density

Go

Verified RMS velocity in terms of pressure and density in 1D

Go

Verified RMS velocity in terms of pressure and volume of gas

Go

Verified RMS velocity in terms of pressure and volume of gas in 1D

Go

Verified RMS velocity in terms of pressure and volume of gas in 2D

Go

Verified RMS velocity in terms of temperature and molar mass

Go

Verified RMS velocity in terms of temperature and molar mass in 2D

Go

Verified Root mean square speed if average velocity is given

Go

Verified speed of a gas molecule in 1D if pressure is given

Go

Verified speed of the gas molecule if force is given

Go

Verified speed of the particle in 3D box

Go

Verified Temperature if most probable speed and molar mass given

Go

Verified Temperature if most probable speed and molar mass given in 2D

Go

Verified Temperature of gas 1 if kinetic energy of both gases are given

Go

Verified Temperature of gas 2 if kinetic energy of both gases are given

Go

Verified Temperature of gas if average velocity is given

Go

Verified Temperature of gas if average velocity is given in 2D

Go

Verified temperature of gas if kinetic energy is given

Go

Verified Temperature of gas if root mean square speed and molar mass given

Go

Verified Temperature of gas in terms of compressibility factor

Go

Verified time between collisions of particle and walls

Go

Verified Vander Waal constant a if critical pressure is given

Go

Verified Vander Waal constant a if critical temperature is given

Go

Verified Vander Waal constant b if critical pressure is given

Go

Verified Vander Waal constant b if critical temperature is given

Go

Verified Vander Waal constant b if the critical volume is given

Go

Verified Volume of gas if average velocity and pressure given

Go

Verified Volume of gas if average velocity and pressure given in 2D

Go

Verified Volume of gas if kinetic energy is given

Go

Verified Volume of gas if most probable speed and pressure given

Go

Verified Volume of gas if most probable speed and pressure given in 2D

Go

Verified Volume of gas if root mean square speed and Pressure given

Go

Verified Volume of gas if root mean square speed and Pressure given in 2D

Go

Verified volume of gas molecules in 3D box if pressure is given

Go

Verified volume of the box having gas molecule if pressure is given

Go

42 More kinetic theory of gases Calculators

Go

Verified Born exponent using Born–Landé equation

Go

Verified Born exponent using Born–Landé equation when Madelung constant is not given

Go

Verified Born exponent using Repulsive Interaction

Go

Verified Constant depending on compressibility using Born–Mayer equation

Go

Verified Distance of closest approach using Born–Landé equation

Go

Verified Distance of closest approach using Born–Landé equation when Madelung constant is not given

Go

Verified Distance of closest approach using Electrostatic potential

Go

Verified Distance of closest approach using Madelung Energy

Go

Verified Electrostatic potential energy between a pair of ions

Go

Verified Lattice Energy using Born–Landé equation

Go

Verified Lattice Energy using Lattice Enthalpy

Go

Verified Lattice Energy using Original Kapustinskii equation

Go

Verified Lattice Enthalpy using Lattice Energy

Go

Verified Madelung constant using Born–Landé equation

Go

Verified Madelung constant using Born–Mayer equation

Go

Verified Madelung constant using Madelung Energy

Go

Verified Madelung constant using Total Energy of an ion

Go

Verified Madelung constant using Total Energy of an ion when Repulsive Interaction is given

Go

Verified Madelung constant when Repulsive Interaction Constant is given

Go

Verified Madelung Energy

Go

Verified Madelung Energy using Total Energy of an ion

Go

Verified Madelung Energy using Total Energy of an ion in terms of distance

Go

Verified Minimum Potential Energy of an ion

Go

Verified No. of ions using Kapustinskii approximation

Go

Verified Outer pressure of lattice

Go

Verified Repulsive Interaction

Go

Verified Repulsive Interaction Constant

Go

Verified Repulsive Interaction Constant using Total Energy of an ion

Go

Verified Repulsive Interaction Constant using Total Energy of an ion when Madelung Energy is given

Go

Verified Repulsive Interaction Constant when Madelung constant is given

Go

Verified Repulsive Interaction using Total Energy of an ion

Go

Verified Repulsive Interaction using Total Energy of an ion in terms of charges and distances

Go

Verified Total Energy of an ion in terms of charges and distances

Go

Verified Total Energy of an ion in the lattice

Go

Verified Volume change of lattice

Go

5 More Lattice Energy Calculators

Go

Verified Actual work when ideal and lost work are given

Go

Verified Ideal work when lost and actual work are given

Go

Verified Lost work when ideal and actual work are given

Go

13 More Laws of thermodynamics, their applications and other basic concepts Calculators

Go

Verified Activity coefficient for component 1 for infinite dilution using NRTL equation

Go

Verified Activity coefficient for component 1 for infinite dilution using Wilson equation

Go

Verified Activity coefficient for component 1 using NRTL equation

Go

Verified Activity coefficient for component 1 using Wilson equation

Go

Verified Activity coefficient for component 2 for infinite dilution using NRTL equation

Go

Verified Activity coefficient for component 2 for infinite dilution using Wilson equation

Go

Verified Activity coefficient for component 2 using NRTL equation

Go

Verified Activity coefficient for component 2 using Wilson equation

Go

Verified Excess Gibbs energy using NRTL equation

Go

Verified Excess Gibbs energy using Wilson equation

Go

Verified Adjusted retention of component 1 if relative retention is given

Go

Verified Adjusted retention of component 2 if relative retention is given

Go

Verified Capacity factor if retention time and mobile phase travel time is given

Go

Verified Capacity factor in terms of stationary phase and mobile phase

Go

Verified Concentration of mobile phase if capacity factor is given

Go

Verified Concentration of stationary phase if capacity factor is given

Go

Verified Diffusion coefficient is standard deviation is given

Go

Verified Distribution ratio

Go

Verified Distribution ratio of solute A if separation factor is given

Go

Verified Distribution ratio of solute B if separation factor is given

Go

Verified Eddy diffusion in terms of Van Deemter Equation

Go

Verified Height of column if number of theoretical plates are given

Go

Verified Length of the column if number of theoretical plates and standard deviation is given

Go

Verified Length of the column if number of theoretical plates and width of peak is given

Go

Verified Length of the column if number of theoretical plates are given

Go

Verified Longitudinal diffusion in terms of Van Deemter Equation

Go

Verified Mass of 1st analyte according to scaling equation

Go

Verified Mass of 2nd analyte according to scaling equation

Go

Verified Molar concentration of the third component in first phase

Go

Verified Molar concentration of the third component in second phase

Go

Verified Nernst distribution law coefficient

Go

Verified Number of theoretical plates if length and height of column is given

Go

Verified Number of theoretical plates if length of column and standard deviation is given

Go

Verified Number of theoretical plates if length of column and width of peak is given

Go

Verified Radius of 1st column according to scaling equation

Go

Verified Radius of 2nd column according to scaling equation

Go

Verified Relative retention if adjusted retention times are given

Go

Verified Resistance to mass transfer in terms of Van Deemter Equation

Go

Verified Retention time if the capacity factor is given

Go

Verified Separation factor if two solutes A and B are present

Go

Verified Standard deviation if length of column and number of theoretical plates is given

Go

Verified Standard deviation of diffusive band spreading

Go

Verified Theoretical plate height in terms of Van Deemter Equation

Go

Verified Time for diffusion if standard deviation is given

Go

Verified Time taken to travel the mobile phase if capacity factor is given

Go

Verified Total concentration of solute in aqueous phase

Go

Verified Total concentration of solute in organic phase

Go

Verified Volume of mobile phase if capacity factor is given

Go

Verified Volume of stationary phase if capacity factor is given

Go

Verified Width of peak if number of theoretical plates and length of column is given

Go

42 More Method of separation technique Calculators

Go

Verified Moment of Inertia in terms of K.E and angular velocity

Go

Verified Moment of inertia of diatomic molecule

Go

Verified Moment of inertia using angular momentum

Go

Verified Moment of inertia using kinetic energy and angular momentum

Go

Verified Moment of inertia using masses of diatomic molecule and bond length

Go

Verified Moment of inertia using reduced mass

Go

Verified Moment of inertia using rotational constant

Go

Verified Moment of inertia using rotational energy

Go

Verified Reduced mass using moment of inertia

Go

Verified Degrees of Freedom of Multi Component System

Go

Verified Number of Components of Multi Component System

Go

Verified Number of Phases of Multi Component System

Go

Verified Acidity when molarity and normality is given

Go

Verified Basicity when molarity and normality is given

Go

Verified Equivalent mass when molality and normality is given

Go

Verified Normality in terms of molarity and valency factor

Go

Verified Normality of substance 1 at equivalence point

Go

Verified Normality of substance 2 at equivalence point

Go

Verified Normality when molality and equivalent mass is given

Go

Verified Normality when molarity and acidity is given

Go

Verified Normality when molarity and basicity is given

Go

Verified Normality when molarity and number of equivalents is given

Go

Verified Number of equivalents of solute

Go

Verified Number of equivalents of solute in terms of valency factor

Go

Verified Number of equivalents of solute when normality is given

Go

Verified Number of equivalents when molarity and normality is given

Go

Verified Number of moles of solute in terms of number of equivalents of solute

Go

Verified Valency factor in terms of molarity and normality

Go

Verified Valency factor in terms of number of equivalents of solute

Go

Verified Volume of solution when normality is given

Go

Verified Volume of substance 1 at equivalence point

Go

Verified Volume of substance 2 at equivalence point

Go

2 More Number of equivalents and normality Calculators

Go

Verified Degrees of Freedom of One Component System

Go

Verified Number of Phases of One Component System

Go

Verified Osmotic pressure when volume and concentration of two substances is given

Go

Verified Van't Hoff Factor when Osmotic Pressure is given

Go

Verified Van't Hoff Osmotic Pressure for mixture of 2 solutions

Go

9 More Osmotic Pressure Calculators

Go

Verified Concentration of anion when Ka and concentration of weak acid and hydrogen ion is given

Go

Verified Concentration of hydrogen ion when Ka and concentration of weak acid and anion is given

Go

Verified Concentration of the weak acid when dissociation constant (Ka) and concentration of ions is given

Go

Verified Degree of dissociation (α) when Ka and initial conc. is given for condition α << 1

Go

Verified Degree of dissociation (α) when Ka and molar volume of weak acid is given for condition α << 1

Go

Verified Dissociation const. (Ka) when initial conc. of weak acid and degree of dissociation (α) is given

Go

Verified Dissociation const. (Ka) when the initial conc. is given for condition α << 1

Go

Verified Dissociation constant of weak acid (Ka) when concentration of weak acid and its ions is given

Go

Verified Initial conc. of weak acid when the dissociation const. (Ka) and degree of dissociation (α) is given

Go

Verified Initial concentration of weak acid when the dissociation const. (Ka) is given for condition α << 1

Go

10 More Ostwald Dilution Law Calculators

Go

Verified Mass of solute using mass percent

Go

Verified Mass of solute using Mass/volume percent

Go

Verified Mass of solution using mass percent

Go

Verified Mass Percent

Go

Verified Mass/Volume percent

Go

Verified Volume of solute using volume percent

Go

Verified Volume of solution using Mass/volume percent

Go

Verified Volume of solution using volume percent

Go

Verified Volume percent

Go

Created Atomic radius when atomic volume is given

Go

Created Atomic Volume

Go

Created Bond energy of elements A and B

Go

Created Covalent radius

Go

Created Crystal radius

Go

Created Distance between two atoms of different molecules

Go

Created Distance between two covalently bonded atoms

Go

Created Distance between two metal atoms

Go

Created Electron Affinity in KJ/mole

Go

Created Electron affinity when electronegativity is given

Go

Created Electronegativity

Go

Created Electronegativity in terms of energies in Kj/mole

Go

Created Electronegativity of element A in kcal/mole

Go

Created Electronegativity of element A in KJ/mole

Go

Created Electronegativity of element B in kcal/mole

Go

Created Electronegativity of element B in KJ/mole

Go

Created Frequency of characteristic X-ray

Go

Created Ionic charge of element

Go

Created Ionic radius of element

Go

Created Ionization energy in KJ/mole

Go

Created Ionization energy when electronegativity is given

Go

Created Pauling electronegativity when Mulliken electronegativity is given

Go

Created Polarizing power

Go

Created Relation between Mulliken and Pauling electronegativity

Go

Created Vander Waal's radius

Go

Created Wavelength of characteristic X-ray

Go

Created Energy of photon in photo-electric effect

Go

Created Intensity of light in photo-electric effect

Go

Created Kinetic energy of photoelectrons

Go

Created Kinetic energy of photoelectrons when threshold energy is given

Go

Created Threshold energy

Go

Created Threshold energy when energy of photon is given

Go

Created Threshold frequency when threshold energy is given

Go

Created Clausius Equation (dp/dT)

Go

Created Enthalpy of Vaporization

Go

Created Freezing Point Depression

Go

Created Humidity

Go

Created Molal freezing point constant when freezing point depression is given

Go

Created Molal Freezing Point Lowering Constant

Go

Created Molal Heat of Fusion of Solvent when Molal Freezing Point Lowering Constant is Given

Go

Created Molal Heat of Vaporization when dp/dT is Given

Go

Created Molal Liquid Volume when dp/dT is Given

Go

Created Molality when Freezing Point Depression is Given

Go

Created Molar Humidity

Go

Created Molar humidity when partial pressure is given

Go

Created Molar Vapor Volume when dp/dT is Given

Go

Created Mole Fraction of A in Liquid in Raoult's Law

Go

Created Number of Components in Equilibrium for Non-Reactive Systems

Go

Created Number of Independent Variables in Equilibrium for Non-Reactive Systems

Go

Created Number of Phases in Equilibrium for Non-Reactive Systems

Go

Created Partial Pressure of Component A in Raoult's Law

Go

Created Percentage of saturation

Go

Created Percentage of Saturation when pressure is given

Go

Created Relative Saturation

Go

Created Solvent Boiling Point in Boiling Point Elevation

Go

Created Solvent Freezing Point when Molal Freezing Point Lowering Constant is Given

Go

Created Solvent Molecular Weight in Boiling Point Elevation

Go

Created Solvent Molecular Weight when Molal Freezing Point Lowering Constant is Given

Go

Created Vapor Pressure of Pure Liquid A in Raoult's Law

Go

Created Vapour Pressure P1 at Temperature T1

Go

Created Vapour Pressure P2 at Temperature T2

Go

Created Variation of Equilibrium Constant with Temperature at Constant Pressure

Go

4 More Physical Chemistry Calculators

Go

Created Energy of 1 mole of photons

Go

Created Energy of a photon using Einstein's approach

Go

4 More Planck Quantum Theory Calculators

Go

Created Active mass

Go

Created Equilibrium constant for reaction when multiplied with integer

Go

Created Equilibrium constant for reverse reaction

Go

Created Equilibrium constant for reverse reaction when constant for forward reaction is given

Go

Created Equilibrium constant for reversed reaction when multiplied with integer

Go

Created Molar concentration of substance A

Go

Created Molar concentration of substance B

Go

Created Molar concentration of substance C

Go

Created Molar concentration of substance D

Go

Created Reaction quotient

Go

Created Weight of reactant when active mass is given

Go

Verified Anti- Stokes scattering frequency

Go

Verified Electric field when polarizability is given

Go

Verified Energy 1 of vibrational level

Go

Verified Energy 2 of vibrational level

Go

Verified Frequency associated to transition

Go

Verified Incident frequency when Anti-stokes frequency is given

Go

Verified Incident frequency when Stokes frequency is given

Go

Verified Molecular dipole moment

Go

Verified Polarizability

Go

Verified Stokes scattering frequency

Go

Verified Vibrational frequency when Anti-Stokes frequency is given

Go

Verified Vibrational frequency when Stokes frequency is given

Go

Verified Activity coefficient using Modified Raoult's Law in VLE

Go

Verified Liquid phase mole fraction using Modified Raoult's Law in VLE

Go

Verified Liquid phase mole fraction using Raoult's Law in VLE

Go

Verified Saturated pressure using Modified Raoult's Law in VLE

Go

Verified Saturated pressure using Raoult's Law in VLE

Go

Verified Total pressure using Henry Law in VLE

Go

Verified Total pressure using Raoult's Law in VLE

Go

Verified Vapour phase mole fraction using Henry Law in VLE

Go

Verified Vapour phase mole fraction using Raoult's Law in VLE

Go

4 More Raoult’s Law, Modified Raoult’s Law, and Henry’s Law in VLE Calculators

Go

Verified Mass 1 of diatomic molecule

Go

Verified Mass 1 when moment of inertia is given

Go

Verified Mass 2 of diatomic molecule

Go

Verified Mass 2 when moment of inertia is given

Go

Verified Radius 1 of rotation

Go

Verified Radius 1 of rotation in terms of masses and bond length

Go

Verified Radius 1 when moment of inertia is given

Go

Verified Radius 1 when rotational frequency is given

Go

Verified Radius 2 of rotation

Go

Verified Radius 2 of rotation in terms of masses and bond length

Go

Verified Radius 2 when moment of inertia is given

Go

Verified Radius 2 when rotational frequency is given

Go

Verified Reduced mass

Go

Created Degree of dissociation for double reaction when equilibrium pressure is given

Go

Created Degree of dissociation of reaction

Go

Created Degree of dissociation when equilibrium pressure is given

Go

Created Degree of dissociation when pressure increases during reaction

Go

Created Degree of dissociation when total number of moles of reaction is given

Go

Created Equilibrium constant due to pressure when degree of dissociation is given

Go

Created Equilibrium constant in terms of mole fraction when degree of dissociation is given

Go

Created Equilibrium constant with respect to pressure when pressure increases

Go

Created Equilibrium constant with respect to pressure when pressure is given

Go

Created Increased Pressure during chemical reaction when degree of dissociation is given

Go

Created Initial number of moles taken when degree of dissociation is given

Go

Created Mole fraction of product substance C

Go

Created Mole fraction of reactant substance A

Go

Created Mole fraction of reactant substance B

Go

Created Number of moles dissociated when degree of dissociation is given

Go

Created Number of moles of a substance when total number of moles of reaction is given

Go

Created Number of moles of substance at equilibrium

Go

Created Pressure of gas when equilibrium constant with respect to pressure is given

Go

Created Total number of moles of reaction at equilibrium

Go

Created Total pressure when equilibrium constant with respect to pressure is given

Go

Created Degree of dissociation using concentration of reaction

Go

Created Degree of dissociation using initial vapour density and vapour density at equilibrium

Go

Created Degree of dissociation using total moles at equilibrium

Go

Created Degree of dissociation using total moles at equilibrium and initial moles

Go

Created Degree of dissociation when initial vapour density is given

Go

Created Degree of dissociation when number of moles at equilibrium is given

Go

Created Degree of dissociation when number of moles of products at equilibrium is 1/2

Go

Created Degree of dissociation when number of moles(n) is 2

Go

Created Initial total moles

Go

Created Initial total moles using degree of dissociation

Go

Created Initial total moles using total moles at equilibrium and number of moles of reaction

Go

Created Initial vapour density

Go

Created Initial vapour density using concentration of reaction

Go

Created Initial vapour density using vapour density at equilibrium and number of moles

Go

Created Initial vapour density when degree of dissociation is given

Go

Created Initial vapour density when molecular weight is given

Go

Created Initial vapour density when number of moles of products at equilibrium is 1/2

Go

Created Initial vapour density when number of moles(n) is 2

Go

Created Initial vapour density when theoretical molecular weight is given

Go

Created Initial vapour density when Van't Hoff factor is given

Go

Created Molecular weight of substance when initial vapour density is given

Go

Created Molecular weight(abnormal) when vapour density at equilibrium is given

Go

Created Number of moles of products(n) using degree of dissociation

Go

Created Number of moles of substance A and B at equilibrium

Go

Created Theoretical molecular weight when initial vapour density is given

Go

Created Total moles at equilibrium

Go

Created Total moles at equilibrium using degree of dissociation

Go

Created Total moles at equilibrium using number of moles and initial total moles

Go

Created Total moles at equilibrium when number of moles of reaction is given

Go

Created Van't Hoff factor in terms of vapour densities

Go

Created Vapour density at equilibrium

Go

Created Vapour density at equilibrium using conc. of reaction

Go

Created Vapour density at equilibrium using degree of dissociation

Go

Created Vapour density at equilibrium using initial vapour density and number of moles

Go

Created Vapour density at equilibrium when molecular weight(abnormal) is given

Go

Created Vapour density at equilibrium when number of moles of products at equilibrium is 1/2

Go

Created Vapour density at equilibrium when number of moles of reaction is given

Go

Created Vapour density at equilibrium when number of moles, n is 2

Go

Created Vapour density at equilibrium when Van't Hoff factor is given

Go

Created Volume of equilibrium mixture of substances A and B

Go

Created Volume of solution when initial vapour density is given

Go

Created Equilibrium constant when equilibrium partial pressure constant is given

Go

Created Equilibrium mole fraction constant when equilibrium constant is given

Go

Created Equilibrium mole fraction constant when equilibrium partial pressure constant is given

Go

Created Relation between different equilibrium constants

Go

Created Relation between equilibrium constant and with respect to mole fraction constant

Go

Created Relation between equilibrium constant with respect to partial pressure and mole fraction

Go

Verified Molality using Relative Lowering Of Vapour Pressure

Go

Verified Mole Fraction of solute in terms of Vapour Pressure

Go

Verified Mole Fraction of solvent in terms of Vapour Pressure

Go

Verified Molecular Mass of solute using Relative Lowering Of Vapour Pressure

Go

Verified Molecular Mass of solvent using Relative Lowering Of Vapour Pressure

Go

Verified Moles of solute in dilute solution using Relative Lowering Of Vapour Pressure

Go

Verified Moles of solvent in dilute solution using Relative Lowering Of Vapour Pressure

Go

Verified Ostwald-Walker Dynamic Method for Relative Lowering Of Vapour Pressure

Go

Verified Relative Lowering Of Vapour Pressure

Go

Verified Relative Lowering Of Vapour Pressure in terms of Molecular mass and Molality

Go

Verified Relative Lowering Of Vapour Pressure in terms of number of moles for a concentrated solution

Go

Verified Relative Lowering Of Vapour Pressure in terms of number of moles for a dilute solution

Go

Verified Relative Lowering Of Vapour Pressure in terms of weight and molecular mass of solute and solvent

Go

Verified Van't Hoff Factor for Relative Lowering Of Vapour Pressure in terms of Molecular mass and Molality

Go

Verified Van't Hoff Factor for Relative Lowering Of Vapour Pressure in terms of number of moles

Go

Verified Van't Hoff Relative Lowering Of Vapour Pressure in terms of Molecular mass and Molality

Go

Verified Van't Hoff Relative Lowering Of Vapour Pressure in terms of number of moles

Go

Verified Weight of solute using Relative Lowering Of Vapour Pressure

Go

Verified Weight of solvent using Relative Lowering Of Vapour Pressure

Go

Verified Conc. of hydrogen ion of acid 1 when relative strength and conc. of hydrogen ion of acid 2 is given

Go

Verified Conc. of hydrogen ion of acid 2 when relative strength and conc. of hydrogen ion of acid 1 is given

Go

Verified Relative Strength of two acids when concentration of hydrogen ion of both acids is given

Go

10 More Relative strength of Two acids Calculators

Go

Verified Actual enthalpy when residual and ideal gas enthalpy is given

Go

Verified Actual entropy when residual and ideal gas entropy is given

Go

Verified Actual Gibbs energy when residual and ideal gas Gibbs energy is given

Go

Verified Actual volume when residual and ideal gas volume is given

Go

Verified Ideal gas enthalpy when residual and actual gas enthalpy is given

Go

Verified Ideal gas entropy when residual and actual gas entropy is given

Go

Verified Ideal gas Gibbs energy when residual and actual gas Gibbs energy is given

Go

Verified Ideal gas volume when residual and actual gas volume is given

Go

Verified Residual enthalpy when actual and ideal gas enthalpy is given

Go

Verified Residual entropy when actual and ideal gas entropy is given

Go

Verified Residual Gibbs energy when actual and ideal gas Gibbs energy is given

Go

Verified Residual volume when actual and ideal gas volume is given

Go

Created Angle of asymptotes

Go

Created Number of Asymptotes

Go

Verified Beta in terms of rotational level

Go

Verified Beta using rotational energy

Go

Created Centrifugal Distortion constant using rotational energy

Go

Verified Energy of rotational transitions from J to J +1

Go

Verified Rotational constant

Go

Verified Rotational constant in terms of energy

Go

Verified Rotational constant in terms of wave number

Go

Verified Rotational constant using energy of transitions

Go

Verified Rotational energy

Go

Created Rotational energy using centrifugal distortion

Go

Verified Rotational energy using rotational constant

Go

Verified 100% Covalent Bond Energy as arithmetic mean

Go

Verified 100% Covalent Bond Energy as geometric mean

Go

Verified 100% Covalent Bond Energy when Covalent Ionic Resonance Energy is given

Go

Verified Actual Bond Energy when Covalent Ionic Resonance Energy is given

Go

Verified Allred-Rochow's Electronegativity from Mulliken's Electronegativity

Go

Verified Allred-Rochow's Electronegativity from Pauling's Electronegativity

Go

Verified Allred-Rochow's Electronegativity in terms of bond energies

Go

Verified Allred-Rochow's Electronegativity of an element

Go

Verified Allred-Rochow's Electronegativity when IE and EA are given

Go

Verified Covalent Ionic Resonance Energy

Go

Verified Covalent Ionic Resonance Energy using Bond Energies

Go

Verified Covalent Ionic Resonance Energy using Pauling's Electronegativity

Go

Verified Covalent radius from Allred-Rochow's Electronegativity

Go

Verified Covalent radius when Mulliken's Electronegativity is given

Go

Verified Covalent radius when Pauling's Electronegativity is given

Go

Verified Effective Nuclear Charge from Allred-Rochow's Electronegativity

Go

Verified Effective Nuclear Charge when Mulliken's Electronegativity is given

Go

Verified Effective Nuclear Charge when Pauling's Electronegativity is given

Go

Verified Electron Affinity of an element using Allred-Rochow's Electronegativity

Go

Verified Electron Affinity of an element using Mulliken's Electronegativity

Go

Verified Electron Affinity of an element using Pauling's Electronegativity

Go

Verified Ionization Energy of an element using Allred-Rochow's Electronegativity

Go

Verified Ionization Energy of an element using Mulliken's Electronegativity

Go

Verified Ionization Energy of an element using Pauling's Electronegativity

Go

Verified Mulliken's Electronegativity from Allred-Rochow's Electronegativity

Go

Verified Mulliken's Electronegativity from Pauling's Electronegativity

Go

Verified Mulliken's Electronegativity in terms of bond energies

Go

Verified Mulliken's Electronegativity of an element

Go

Verified Mulliken's Electronegativity when Effective Nuclear Charge and Covalent radius are given

Go

Verified Pauling's Electronegativity from Allred-Rochow's Electronegativity

Go

Verified Pauling's Electronegativity from Mulliken's Electronegativity

Go

Verified Pauling's Electronegativity in terms of bond energies

Go

Verified Pauling's Electronegativity in terms of individual electronegativities

Go

Verified Pauling's Electronegativity when Effective Nuclear Charge and Covalent radius are given

Go

Verified Pauling's Electronegativity when IE and EA are given

Go

Created Angle between angular momentum and momentum along z-axis

Go

Created Angle between orbital angular momentum and z-axis

Go

Created Energy of an electron determined by principal quantum number

Go

Created Exchange energy

Go

Created Magnetic quantum angular momentum

Go

Created Magnetic quantum number when orbital angular momentum is given

Go

Created Maximum number of electron in orbit of principal quantum number

Go

Created Maximum number of electrons in sub-shell of magnetic quantum number

Go

Created Number of orbitals in sub-shell of magnetic quantum number

Go

Created Number of orbitals of magnetic quantum number in main energy level

Go

Created Number of peaks obtained in a curve

Go

Created Relation between magnetic angular momentum and orbital angular momentum

Go

Created Spin multiplicity

Go

Created Spin only magnetic moment

Go

Created Total magnetic quantum number value

Go

Created Total number of orbitals of principal quantum number

Go

8 More Schrodinger Wave Equation Calculators

Go

Verified 1D Lattice Direction for Lattice Points

Go

Verified 2D Lattice Direction for Lattice Points

Go

Verified 3D Lattice Direction for Lattice Points

Go

Verified 3D Lattice Direction for points in space which are not Lattice Points

Go

Verified 3D Lattice Direction for points in space which are not Lattice Points with respect to lattice points

Go

Verified Atomic Packing Factor of BCC

Go

Verified Atomic Packing Factor of BCC in terms of particle radius

Go

Verified Atomic Packing Factor of FCC

Go

Verified Atomic Packing Factor of FCC in terms of particle radius

Go

Verified Atomic Packing Factor of SCC

Go

Verified Atomic Packing Factor of SCC in terms of particle radius

Go

Verified Density of BCC lattice

Go

Verified Density Of FCC lattice

Go

Verified Density of Simple Cubic Unit Cell

Go

Verified Density of Unit Cell

Go

Verified Edge length of Body Centered Unit Cell

Go

Verified Edge Length of Face Centered Unit Cell

Go

Verified Edge length of Simple cubic unit cell

Go

Verified Edge Length using Interplanar Distance of Cubic Crystal

Go

Verified Energy per impurity

Go

Verified Fraction of impurity in lattice

Go

Verified Fraction of impurity in lattice in terms of Energy

Go

Verified Interplanar angle for Hexagonal system

Go

Verified Interplanar Distance in Cubic Crystal Lattice

Go

Verified Interplanar Distance in Hexagonal Crystal Lattice

Go

Verified Interplanar Distance in Monoclinic Crystal Lattice

Go

Verified Interplanar Distance in Triclinic Crystal Lattice

Go

Verified Linear Density

Go

Verified Linear Density for BCC [101] direction

Go

Verified Linear Density for BCC [110] direction

Go

Verified Linear Density for BCC [111] direction

Go

Verified Miller index along X-axis using Weiss Indices

Go

Verified Miller index along Y-axis using Weiss Indices

Go

Verified Miller index along Z-axis using Weiss Indices

Go

Verified No. of lattice containing impurities

Go

Verified Number of Octahedral Voids

Go

Verified Number of Tetrahedral Voids

Go

Verified Packing Efficiency

Go

Verified Planar Density

Go

Verified Planar Density for BCC (100) plane

Go

Verified Planar Density for FCC (100) plane

Go

Verified Planar Density for FCC (110) plane

Go

Verified Planar Density for FCC (111) plane

Go

Verified Radius of Constituent Particle in BCC lattice

Go

Verified Radius of Constituent Particle in FCC lattice

Go

Verified Radius of Constituent particle in Simple Cubic Unit Cell

Go

Verified Radius Ratio

Go

Verified Volume of a Unit cell

Go

Verified Volume of Body Centered Unit Cell

Go

Verified Volume of face Centered Unit Cell

Go

Verified Volume of Simple Cubic Unit Cell

Go

Verified Weiss Index along X-axis using Miller Indices

Go

Verified Weiss Index along Y-axis using Miller Indices

Go

Verified Weiss Index along Z-axis using Miller Indices

Go

15 More Solid State Chemistry Calculators

Go

Verified Density of solution when osmotic pressure is given

Go

Verified Depression in freezing point in terms of Elevation in Boiling Point

Go

Verified Depression in freezing point in terms of Osmotic Pressure

Go

Verified Depression in freezing point in terms of Relative Lowering of Vapour Pressure

Go

Verified Depression in freezing point in terms of Vapour Pressure

Go

Verified Elevation in Boiling Point in terms of Depression in freezing point

Go

Verified Elevation in Boiling Point in terms of Osmotic Pressure

Go

Verified Elevation in Boiling Point in terms of Relative Lowering of Vapour Pressure

Go

Verified Elevation in Boiling Point in terms of Vapour Pressure

Go

Verified Equilibrium height when osmotic pressure is given

Go

Verified Moles of solute when osmotic pressure is given

Go

Verified Observed or Experimental value of colligative property when Van't Hoff factor is given

Go

Verified Osmotic Pressure for Non Electrolyte

Go

Verified Osmotic Pressure in terms of Depression in freezing point

Go

Verified Osmotic Pressure in terms of Elevation in Boiling Point

Go

Verified Osmotic pressure in terms of number of moles and volume of solution

Go

Verified Osmotic Pressure in terms of Relative Lowering of Vapour Pressure

Go

Verified Osmotic Pressure in terms of Vapour Pressure

Go

Verified Osmotic pressure when concentration of two substances is given

Go

Verified Osmotic Pressure when density of solution is given

Go

Verified Osmotic pressure when volume and osmotic pressure of two substances is given

Go

Verified Relative Lowering of Vapour Pressure in terms of Depression in freezing point

Go

Verified Relative Lowering of Vapour Pressure in terms of Elevation in Boiling Point

Go

Verified Relative Lowering of Vapour Pressure in terms of Osmotic Pressure

Go

Verified Temperature of gas when osmotic pressure is given

Go

Verified Theoretical value of colligative property when Van't Hoff factor is given

Go

Verified Total concentration of particles using osmotic pressure

Go

Verified Van't Hoff factor in terms of colligative property

Go

Verified Van't Hoff Osmotic Pressure for an Electrolyte

Go

Verified Volume of solution when osmotic pressure is given

Go

Created Angular momentum of electron

Go

Created Angular momentum of electron when radial momentum is given

Go

Created Angular quantization number of electron in elliptical orbit

Go

Created Energy of an electron in an elliptical orbit

Go

Created Quantum number of electron in elliptical orbit

Go

Created Radial momentum of an electron

Go

Created Radial momentum of electron when angular momentum is given

Go

Created Radial quantization number of electron in elliptical orbit

Go

Created Total momentum of electrons in the elliptical orbit

Go

Verified Coefficient of thermal expansion of real gas

Go

Verified Difference between Cp and Cv of real gas

Go

Verified Heat Capacity at constant Pressure of real gas

Go

Verified Heat Capacity at constant Volume of real gas

Go

Verified Isothermal compressibility of real gas

Go

9 More Specific heat capacity Calculators

Go

Created Energy of photochemical reaction

Go

Created Energy of photochemical reaction in terms of wavelength of substance

Go

Created Energy Per quantum of radiation absorbed

Go

Created Energy per quantum of radiation in terms of wavelength of substance

Go

Created Energy per quantum when intensity is given

Go

Created Frequency of substance when energy of reaction is given

Go

Created Intensity in J/s when intensity in terms of photons is given

Go

Created Intensity in terms of number of photons absorbed in 1 second

Go

Created Intensity of incident light

Go

Created Intensity of light absorbed

Go

Created Intensity of transmitted light

Go

Created Number of molecules of product formed in 1 second

Go

Created Number of molecules of reactant consumed in 1 second

Go

Created Number of quanta absorbed in 1 second using quantum efficiency of products

Go

Created Number of quanta absorbed in 1 second using quantum efficiency of reactant

Go

Created Quantum efficiency for disappearance of the reactant

Go

Created Quantum efficiency for formation of product

Go

Created Wavelength of substance when energy of reaction is given

Go

Created Electric charge

Go

Created Mass number

Go

Created Mass of moving electron

Go

Created Number of neutrons

Go

Created Specific charge

Go

Created Wave number of electromagnetic wave

Go

3 More Structure of atom Calculators

Go

Verified Enthalpy when Gibbs energy, temperature and entropy is given

Go

Verified Enthalpy when internal energy, pressure and volume is given

Go

Verified Entropy when Gibbs energy, enthalpy and temperature is given

Go

Verified Entropy when Helmholtz energy, internal energy and temperature is given

Go

Verified Gibbs energy when enthalpy, temperature and entropy is given

Go

Verified Helmholtz energy when internal energy, temperature and entropy is given

Go

Verified Internal energy when enthalpy, pressure and volume is given

Go

Verified Internal energy when Helmholtz energy, temperature and entropy is given

Go

Verified Pressure when enthalpy, internal energy and volume is given

Go

Verified Temperature when Gibbs energy, enthalpy and entropy is given

Go

Verified Temperature when Helmholtz energy, internal energy and entropy is given

Go

Verified Volume when enthalpy, internal energy and pressure is given

Go

Created Equilibrium constant 1 in temperature range T1 and T2

Go

Created Equilibrium constant 2 in temperature range T1 and T2

Go

Created Equilibrium constant at equilibrium

Go

Created Equilibrium constant at equilibrium when Gibbs energy is given

Go

Created Equilibrium constant at final temperature, T2

Go

Created Equilibrium constant at initial temperature, T1

Go

Created Equilibrium constant due to pressure when Gibbs energy is given

Go

Created Equilibrium constant when Gibbs free energy is given

Go

Created Gibbs energy of products

Go

Created Gibbs energy of reactants

Go

Created Gibbs energy of reaction

Go

Created Gibbs free energy when equilibrium constant due to pressure is given

Go

Created Gibbs free energy when equilibrium constant is given

Go

Created Gibbs free energy when standard enthalpy is given

Go

Created Standard enthalpy at final temperature, T2

Go

Created Standard enthalpy at initial temperature, T1

Go

Created Standard enthalpy of reaction at equilibrium

Go

Created Standard enthalpy of reaction when Gibbs free energy is given

Go

Created Standard entropy change at equilibrium

Go

Created Standard entropy change at final temperature, T2

Go

Created Standard entropy change at initial temperature, T1

Go

Created Standard entropy change when Gibbs free energy is given

Go

Created Temperature of reaction when equilibrium constant and Gibbs energy is given

Go

Created Temperature of reaction when equilibrium constant of pressure and Gibbs energy is given

Go

Created Temperature of reaction when standard enthalpy and entropy change is given

Go

Created Time constant

Go

Created Time response in critically damped case

Go

Created Time response in overdamped case

Go

Created Time response in undamped case

Go

Verified Degrees of Freedom of Two Component System

Go

Verified Number of Phases of Two Component System

Go

Verified Apparent Molar Mass when Van't Hoff factor is given

Go

Verified Degree of Association in terms of Van't Hoff Factor

Go

Verified Degree of Dissociation in terms of Van't Hoff Factor

Go

Verified Experimental osmotic pressure when Van't Hoff factor is given

Go

Verified Formula Mass when Van't Hoff factor is given

Go

Verified Observed molality when Van't Hoff factor is given

Go

Verified Observed number of particles when Van't Hoff factor is given

Go

Verified Theoretical molality when Van't Hoff factor is given

Go

Verified Theoretical number of particles when Van't Hoff factor is given

Go

Verified Theoretical osmotic pressure when Van't Hoff factor is given

Go

Verified Van't Hoff factor in terms of experimental and theoretical osmotic pressure

Go

Verified Van't Hoff Factor in terms of molality

Go

Verified Van't Hoff factor in terms of Molar Mass

Go

Verified Van't Hoff Factor in terms of number of particles

Go

Verified Van't Hoff factor using Degree of Association

Go

Verified Van't Hoff factor using Degree of Dissociation

Go

3 More Van't Hoff Factor Calculators

Go

Verified Activity coefficient using Gamma/ phi formulation of VLE

Go

Verified Saturated pressure using Antoine equation

Go

Verified Saturated pressure using Gamma/ phi formulation of VLE

Go

Verified Temperature when saturated pressure is given in Antoine equation

Go

Verified Total pressure for binary liquid system for dew/bubble point calculations with Modified Raoult's Law

Go

Verified Total pressure for binary liquid system for dew/bubble point calculations with Raoult's Law

Go

Verified Total pressure for binary vapour system for dew/bubble point calculations with Modified Raoult's Law

Go

Verified Total pressure for binary vapour system for dew/bubble point calculations with Raoult's Law

Go

8 More Vapor Liquid Equilibrium Calculators

Go

Created Anharmonicity constant when dissociation energy is given

Go

Created Dissociation energy in terms of vibrational wavenumber

Go

Created Dissociation energy of potential

Go

Created Dissociation energy of potential using zero point energy

Go

Created Energy of Vibrational transitions

Go

Created Maximum vibrational quantum number when dissociation energy is given

Go

Created Vibrational Energy

Go

Created Vibrational energy in terms of vibrational wave number

Go

Created Vibrational energy using Anharmonicity constant

Go

Created Vibrational energy using dissociation energy

Go

Created Vibrational frequency in terms of vibrational energy

Go

Created Vibrational wavenumber in terms of vibrational energy

Go

Created Zero point dissociation energy

Go

Created Zero point energy

Go

Created Zero point energy when dissociation energy is given

Go

Created Anharmonic potential constant

Go

Created Anharmonicity constant when first overtone frequency is given

Go

Created Anharmonicity constant when fundamental frequency is given

Go

Created Anharmonicity constant when second overtone frequency is given

Go

Created First overtone frequency

Go

Created Fundamental frequency of vibrational transitions

Go

Created Maximum vibrational number using Anharmonicity constant

Go

Created Maximum vibrational quantum number

Go

Created Rotational constant for vibrational state

Go

Created Rotational constant related to equilibrium

Go

Created Second overtone frequency

Go

Created Total degree of freedom for linear molecules

Go

Created Total degree of freedom for nonlinear molecules

Go

Created Vibrational degree of freedom for linear molecules

Go

Created Vibrational degree of freedom for nonlinear molecules

Go

Created Vibrational frequency when first overtone frequency is given

Go

Created Vibrational frequency when fundamental frequency is given

Go

Created Vibrational frequency when second overtone frequency is given

Go

Created Vibrational quantum number using rotational constant

Go

Created Vibrational quantum number using vibrational frequency

Go

Created Vibrational quantum number using vibrational wavenumber

Go

Verified Liquid phase mole fraction using Gamma/ phi formulation of VLE

Go

16 More Volumetric properties of pure fluids Calculators

Go

List of Calculators by Akshada Kulkarni