Answer
Verified
418.5k+ views
Hint: An emanation line will show up in a range if the source discharges explicit frequencies of radiation. This emanation happens when an iota, component, or particle in an energized state gets back to an arrangement of lower energy.
Complete answer:
As indicated by Bohr, there were just discrete permitted energy levels that the electron could involve. On the off chance that energy was added to a particle (through warmth, power, or light) the iota could assimilate explicit measures of this energy. This would cause the electron (he managed hydrogen in his underlying figurines) to bounce into a higher energy circle, known as a fixed state. Each state was described by a number, n. Assume a given electron hopped from n = 1 (the least conceivable energy) into n = 4. A particularly high-energy electron was supposed to be in an energized state.
After a brief timeframe, the electron would get back to its lower energy level, either in one bounce descending or in a progression of more modest hops through n = 3, n = 2, and so on To take each leap, the particle would need to deliver its overflow energy, which it did as a photon. Since there were just sure energy changes conceivable, just certain shades of light would be seen. (The shade of the light depended on the energy and recurrence of the produced photon.)
Note: At the point when an electron makes a change from a higher energy level to a lower one out of a particle, a photon is delivered with energy equivalent to the distinction in the energy of the levels. Such a range of electromagnetic energy is called discharge range
Complete answer:
As indicated by Bohr, there were just discrete permitted energy levels that the electron could involve. On the off chance that energy was added to a particle (through warmth, power, or light) the iota could assimilate explicit measures of this energy. This would cause the electron (he managed hydrogen in his underlying figurines) to bounce into a higher energy circle, known as a fixed state. Each state was described by a number, n. Assume a given electron hopped from n = 1 (the least conceivable energy) into n = 4. A particularly high-energy electron was supposed to be in an energized state.
After a brief timeframe, the electron would get back to its lower energy level, either in one bounce descending or in a progression of more modest hops through n = 3, n = 2, and so on To take each leap, the particle would need to deliver its overflow energy, which it did as a photon. Since there were just sure energy changes conceivable, just certain shades of light would be seen. (The shade of the light depended on the energy and recurrence of the produced photon.)
Note: At the point when an electron makes a change from a higher energy level to a lower one out of a particle, a photon is delivered with energy equivalent to the distinction in the energy of the levels. Such a range of electromagnetic energy is called discharge range
Recently Updated Pages
10 Examples of Evaporation in Daily Life with Explanations
10 Examples of Diffusion in Everyday Life
1 g of dry green algae absorb 47 times 10 3 moles of class 11 chemistry CBSE
What happens when dilute hydrochloric acid is added class 10 chemistry JEE_Main
What is the meaning of celestial class 10 social science CBSE
What causes groundwater depletion How can it be re class 10 chemistry CBSE
Trending doubts
Fill the blanks with the suitable prepositions 1 The class 9 english CBSE
Which are the Top 10 Largest Countries of the World?
How do you graph the function fx 4x class 9 maths CBSE
Who was the leader of the Bolshevik Party A Leon Trotsky class 9 social science CBSE
The Equation xxx + 2 is Satisfied when x is Equal to Class 10 Maths
Differentiate between homogeneous and heterogeneous class 12 chemistry CBSE
Difference between Prokaryotic cell and Eukaryotic class 11 biology CBSE
Which is the largest saltwater lake in India A Chilika class 8 social science CBSE
Ghatikas during the period of Satavahanas were aHospitals class 6 social science CBSE