What energy photon can atoms in the n = 2 state emit spontaneously?

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Study for the ACT Science Exam. Dive into detailed scientific data analysis through multiple choice questions. Each question features hints and explanations to boost your understanding. Get ready for your exam!

Multiple Choice

What energy photon can atoms in the n = 2 state emit spontaneously?

To determine what energy photons can be emitted by atoms in the n = 2 state, it is important to analyze the electronic energy levels of hydrogen-like atoms. The energy levels of hydrogen can be calculated using the formula:

[ E_n = -\frac{13.6 , \text{eV}}{n^2} ]

For n = 1 (ground state), the energy is -13.6 eV. For n = 2, the energy is:

[ E_2 = -\frac{13.6 , \text{eV}}{2^2} = -\frac{13.6 , \text{eV}}{4} = -3.4 , \text{eV} ]

When an electron transitions from a higher energy level to a lower energy level, it emits a photon with energy equal to the difference in energy between those two states.

In the case of the n = 2 level:

The next higher energy level is n = 3, which has an energy of:

[ E_3 = -\frac{13.6 , \text{eV}}{3^2} = -\frac{13

What energy photon can atoms in the n = 2 state emit spontaneously?

Study for the ACT Science Exam. Dive into detailed scientific data analysis through multiple choice questions. Each question features hints and explanations to boost your understanding. Get ready for your exam!

What energy photon can atoms in the n = 2 state emit spontaneously?

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