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diffraction wavelength
To calculate the frequency of the light emitted when an electron in a hydrogen atom makes a transition, simply use change in E = (-2.18*10^-18 J)[1/(nf)^2 - 1/(ni)^2]. Then convert the energy E to frequency using f = E/h where h is Planck's constant 6.626*10^-34 J*s.
The fusion of Hydrogen into Helium.
doppler effect
Doppler Effect :)
If the transition is directly from level 4 to level 1, a single photon - in a single frequency - is emitted. However, it is also possible that an electron falls first from level 4 to level 3, and then from level 3 to level 1, for example. In this case, more than one photon - of different frequencies - can be emitted.
diffraction wavelength
light emitted from excited atoms occurs only at specific wavelengths
To calculate the frequency of the light emitted when an electron in a hydrogen atom makes a transition, simply use change in E = (-2.18*10^-18 J)[1/(nf)^2 - 1/(ni)^2]. Then convert the energy E to frequency using f = E/h where h is Planck's constant 6.626*10^-34 J*s.
Yes, the energy produced when nuclear fusion occurs. Hydrogen atoms form helium atoms. The resultant energy enables electrons to be freed from nuclei. As these electrons return to the nuclei energy is emitted.
No. Hydrogen fusion occurs in the star's core.
The answer is Diffraction
The answer is Diffraction
hydrogen fusion
A transition period is a time where things are not fully functional or in their completed state. This usually occurs when many changes are made.
The story transitions from the beginning to the middle when the occurs
Yes, hydrogen ions are mainly positive. This occurs most in acids.