Akshada Kulkarni
National Institute of Information Technology (NIIT), Neemrana
Akshada Kulkarni has created this Calculator and 300+ more calculators!
Suman Ray Pramanik
Indian Institute of Technology (IIT), Kanpur
Suman Ray Pramanik has verified this Calculator and 100+ more calculators!

11 Other formulas that you can solve using the same Inputs

Velocity of alpha particle using distance of closest approach
Velocity of alpha particle=sqrt(([Coulomb]*Atomic number*([Charge-e]^2))/([Atomic-m]*Distance of closest approach)) GO
Distance of closest approach
Distance of closest approach=([Coulomb]*4*Atomic number*([Charge-e]^2))/([Atomic-m]*(Velocity of alpha particle^2)) GO
Energy in nth Bohr’s Orbit
Energy in nth Bohr's unit=-13.6*((Atomic number)^2)/((No of level in the orbit)^2) GO
Kinetic Energy In Electron Volts.
Energy In Electron Volts=-13.6*(Atomic number)^2/(Quantum Number)^2 GO
Potential Energy In Electron Volts.
Energy In Electron Volts=6.8*(Atomic number)^2/(Quantum Number)^2 GO
Total Energy In Electron Volts
Energy In Electron Volts=6.8*(Atomic number)^2/(Quantum Number)^2 GO
Kinetic Energy Of A Electron
Energy=-2.178*10^-18*(Atomic number)^2/(Quantum Number)^2 GO
Potential Energy Of Electron
Energy=1.085*10^-18*(Atomic number)^2/(Quantum Number)^2 GO
Total Energy Of Electron
Energy=-1.085*(Atomic number)^2/(Quantum Number)^2 GO
Bohr's Radius
Radius=(Quantum Number/Atomic number)*0.529*10^-10 GO
Number of neutrons
Number of Neutrons=Mass number-Atomic number GO

9 Other formulas that calculate the same Output

Wave number of spectral lines
Wave number of particle=([R]*(Atomic number^2))*(1/(Initial orbit^2)-1/(Final orbit^2)) GO
Wave number associated with photon
Wave number of particle=([R]/([hP]*[c]))*(1/(Initial orbit^2)-1/(Final orbit^2)) GO
Rydberg's Equation for hydrogen
Wave number of particle=[Rydberg]*(1/(Initial orbit^2)-1/(Final orbit^2)) GO
Rydberg's Equation for Brackett Series
Wave number of particle=[Rydberg]*(1/(4^2)-1/(Final orbit^2)) GO
Rydberg's Equation for Paschen Series
Wave number of particle=[Rydberg]*(1/(3^2)-1/(Final orbit^2)) GO
Rydberg's Equation for Balmer Series
Wave number of particle=[Rydberg]*(1/(2^2)-1/(Final orbit^2)) GO
Rydberg's Equation for Lyman series
Wave number of particle=[Rydberg]*(1/(1^2)-1/(Final orbit^2)) GO
Rydberg's Equation for Pfund Series
Wave number of particle=[Rydberg]*(1/(5^2)-1/(Final orbit^2)) GO
Wave number when frequency of photon is given
Wave number of particle=Frequency of photon/[c] GO

Rydberg's Equation Formula

Wave number of particle=[Rydberg]*(Atomic number^2)*(1/(Initial orbit^2)-1/(Final orbit^2))
ν'=[Rydberg]*(Z^2)*(1/(n<sub>i</sub>^2)-1/(n<sub>f</sub>^2))
More formulas
Number Of Spectral Lines GO
Rydberg's Equation for hydrogen GO
Rydberg's Equation for Lyman series GO
Rydberg's Equation for Balmer Series GO
Rydberg's Equation for Paschen Series GO
Rydberg's Equation for Brackett Series GO
Rydberg's Equation for Pfund Series GO
Energy of stationary state of hydrogen GO
Energy gap between two orbits GO
Energy of electron in initial orbit GO
Energy of electron in final orbit GO
Frequency associated with a photon GO
Frequency of photon when energy levels are given GO
Energy gap when energy of two levels are given GO
Wave number associated with photon GO
Wave number of spectral lines GO
Wavelength of all spectral lines GO

What is Rydberg's Equation?

When an electron transfers from one atomic orbital to another, its energy changes. When an electron shift from an orbital with high energy to a lower energy state, a photon of light is generated. A photon of light gets absorbed by the atom when the electron moves from low energy to a higher energy state. The Rydberg Formula is applicable to the spectra of the different elements.

How to Calculate Rydberg's Equation?

Rydberg's Equation calculator uses Wave number of particle=[Rydberg]*(Atomic number^2)*(1/(Initial orbit^2)-1/(Final orbit^2)) to calculate the Wave number of particle, The Rydberg's Equation is used to determine the wavelength of light emitted by an electron moving between the energy levels of an atom. . Wave number of particle and is denoted by ν' symbol.

How to calculate Rydberg's Equation using this online calculator? To use this online calculator for Rydberg's Equation, enter Atomic number (Z), Initial orbit (ni) and Final orbit (nf) and hit the calculate button. Here is how the Rydberg's Equation calculation can be explained with given input values -> 2.379E+9 = [Rydberg]*(17^2)*(1/(1^2)-1/(2^2)).

FAQ

What is Rydberg's Equation?
The Rydberg's Equation is used to determine the wavelength of light emitted by an electron moving between the energy levels of an atom. and is represented as ν'=[Rydberg]*(Z^2)*(1/(ni^2)-1/(nf^2)) or Wave number of particle=[Rydberg]*(Atomic number^2)*(1/(Initial orbit^2)-1/(Final orbit^2)). Atomic number is the number of protons present inside the nucleus of an atom of an element, Initial orbit is a number that is related to the principal quantum number or energy quantum number and Final orbit is a number that is related to the principal quantum number or energy quantum number.
How to calculate Rydberg's Equation?
The Rydberg's Equation is used to determine the wavelength of light emitted by an electron moving between the energy levels of an atom. is calculated using Wave number of particle=[Rydberg]*(Atomic number^2)*(1/(Initial orbit^2)-1/(Final orbit^2)). To calculate Rydberg's Equation, you need Atomic number (Z), Initial orbit (ni) and Final orbit (nf). With our tool, you need to enter the respective value for Atomic number, Initial orbit and Final orbit and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Wave number of particle?
In this formula, Wave number of particle uses Atomic number, Initial orbit and Final orbit. We can use 9 other way(s) to calculate the same, which is/are as follows -
  • Wave number of particle=[Rydberg]*(1/(Initial orbit^2)-1/(Final orbit^2))
  • Wave number of particle=[Rydberg]*(1/(1^2)-1/(Final orbit^2))
  • Wave number of particle=[Rydberg]*(1/(2^2)-1/(Final orbit^2))
  • Wave number of particle=[Rydberg]*(1/(3^2)-1/(Final orbit^2))
  • Wave number of particle=[Rydberg]*(1/(4^2)-1/(Final orbit^2))
  • Wave number of particle=[Rydberg]*(1/(5^2)-1/(Final orbit^2))
  • Wave number of particle=Frequency of photon/[c]
  • Wave number of particle=([R]/([hP]*[c]))*(1/(Initial orbit^2)-1/(Final orbit^2))
  • Wave number of particle=([R]*(Atomic number^2))*(1/(Initial orbit^2)-1/(Final orbit^2))
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