Final answer:
Rydberg's constant is a physical constant utilized in the Rydberg formula to calculate the wavelengths of photons during electron transitions in hydrogen. It is not the energy of the n=6 energy level or any other energy level, hence the answer is 'No'.
Step-by-step explanation:
Rydberg's constant is a fundamental physical constant related to the atomic spectra of hydrogen. The value of Rydberg's constant (R) as provided is 1.09737 × 107 m−1. It is used in the Rydberg formula to predict the wavelength of photons emitted or absorbed when an electron transitions between energy levels in a hydrogen atom. However, Rydberg's constant is not the energy of any specific energy level, like n=6. Instead, it is part of the calculation to find the energy difference between levels. The energy of a specific level can be found using the Bohr model, which defines the energy using the electron's orbit number n with other constants, but not directly with the Rydberg constant r. For an electron in the n=6 orbit, you would need to use the Bohr model equation to calculate its energy, which is not the same as Rydberg's constant. Therefore, the answer to the student's question is b. No.