answersLogoWhite

0

What else can I help you with?

Related Questions

How did Niels Bohr change the atomic model based on his experimental results?

He placed electrons in orbits around the nucleus.


How did Neil's Bohr change atomic model based on experimental results?

Niels Bohr transformed the atomic model by integrating quantum theory with classical physics, particularly through his application of quantized energy levels for electrons. Based on experimental results, such as the emission spectra of hydrogen, he proposed that electrons occupy specific orbits with fixed energies, and they can only transition between these orbits by absorbing or emitting discrete amounts of energy (quanta). This model explained the stability of atoms and the distinct spectral lines observed in atomic emissions, marking a significant advancement over earlier models.


Who is niels borh?

niels borh is the creater of the atomic bomb. by:mo alhaj (bambam)


How did bohrium change Niels Bohr?

Bohrium, a synthetic element with the atomic number 107, was named in honor of Niels Bohr, a Danish physicist known for his contributions to understanding atomic structure. The naming of bohrium serves as a tribute to Bohr's groundbreaking work on the structure of the atom and his significant impact on the field of physics.


Where did Niels Bohr discover the atomic structure?

he just did


What did Niels Bohr define the organization of?

the atomic electrons.


Why niels bohr is important?

Niels Bohr is important for his work in the areas of atomic structure and quantum theory. He was a physicist from the country of Denmark.


The Bohr model of atomic structure?

Niels Bohr propose a planetary model for the atomic nucleus.


What scientific accomplishments are Niels Bohr known for?

his atomic model


What was Niels bohr nickname for his atomic theory?

father atom


Who form the atomic theory model of the atom?

Niels Bohr is considered the founder of the modern atomic model.


What were the discoveries of niels bohr?

Niels Bohr made significant contributions to the understanding of atomic structure by proposing the Bohr model, which described electrons orbiting the nucleus in discrete energy levels. This model helped explain atomic spectra and laid the foundation for quantum mechanics. Bohr also introduced the principle of complementarity, which states that particles can exhibit both wave-like and particle-like properties depending on the experimental setup.