n = 6 to n = 2Further explanationFrom several sources, we have prepared the following answer choices:A. n = 2 to n = 5B. n = 6 to n = 4C. n = 3 to n = 2D. n = 6 to n = 2We will determine which electron transition would correspond to the shortest wavelength line in the visible emission spectra for hydrogen.The amount of energy released or absorbed by electrons when moving from n₁ level to n₂ level is equal toin eV.This energy difference is equal to, where f and λ are the frequency and wavelength of the radiation emitted or absorbed.Thus,the wavelength is inversely proportional to the energy difference from the electron transition.To get the shortest wavelength, it is determined by the largest ΔE.From the formula above, we practically only need to calculate partwhich is directly proportional to ΔE.  Then from the results of the calculation of this section, we will get the shortest wavelength from the largest result..A. n₁ = 2 to n₂ = 5By taking the absolute value, we getB. n₁ = 6 to n₂ = 4We getC. n₁ = 3 to n₂ = 2We getD. n₁ = 6 to n₂ = 2We getThe last calculation above shows the greatest results so that the shortest wavelength is undoubtedly gained from the electron transition n = 6 to n = 2.Learn moreThe energy density of the stored energybrainly.com/question/9617400Particle's speed and direction of motionbrainly.com/question/2814900The relationship between a single gold atom and the thickness of the atoms in Rutherford's foilbrainly.com/question/4929060Keywords:according to the Bohr model of the atom, which electron transition would correspond, to the shortest wavelength, the visible emission spectra for hydrogen, energy, inversely proportional...

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