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Bohr Model Hydrogen Spectrum
The Bohr Model of Hydrogen Spectroscopy
Ancient scholars wanted to study the principles of all things, and they did a lot of research on the atomic spectrum. Hydrogen spectroscopists have unique spectral lines, which has caused many people to think.
In the past, various theories were different, but none of them were refined. When Bohr came out, he created the Bohr model to solve the mystery of hydrogen spectroscopy. Bohr based on quantum theory and proposed a new theory of the movement of electrons around the nucleus.
He said that electrons in atoms can travel in non-arbitrary orbits and can only be in specific energy orbits. When electrons jump from high energy levels to low energy levels, photons will be radiated, and the energy of this photon is exactly equal to the difference between two energy levels. The spectral line of the hydrogen spectrum originates from this electron transition. The transitions between different energy levels create different frequencies of light, resulting in a unique spectrum.
The beauty of the Bohr model lies in the concise and accurate interpretation of the laws of the hydrogen spectrum. The past was difficult, so it was frozen. Although science has evolved since then, this model is slightly limited, but at that time, it was tantamount to opening up a new world, laying a solid foundation for future generations to explore the mysteries of the atom. Enable scholars to follow this path to gain deeper insight into the wonders of the microscopic world.
Ancient scholars wanted to study the principles of all things, and they did a lot of research on the atomic spectrum. Hydrogen spectroscopists have unique spectral lines, which has caused many people to think.
In the past, various theories were different, but none of them were refined. When Bohr came out, he created the Bohr model to solve the mystery of hydrogen spectroscopy. Bohr based on quantum theory and proposed a new theory of the movement of electrons around the nucleus.
He said that electrons in atoms can travel in non-arbitrary orbits and can only be in specific energy orbits. When electrons jump from high energy levels to low energy levels, photons will be radiated, and the energy of this photon is exactly equal to the difference between two energy levels. The spectral line of the hydrogen spectrum originates from this electron transition. The transitions between different energy levels create different frequencies of light, resulting in a unique spectrum.
The beauty of the Bohr model lies in the concise and accurate interpretation of the laws of the hydrogen spectrum. The past was difficult, so it was frozen. Although science has evolved since then, this model is slightly limited, but at that time, it was tantamount to opening up a new world, laying a solid foundation for future generations to explore the mysteries of the atom. Enable scholars to follow this path to gain deeper insight into the wonders of the microscopic world.
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