What is Energy levels: Definition and 276 Discussions

A quantum mechanical system or particle that is bound—that is, confined spatially—can only take on certain discrete values of energy, called energy levels. This contrasts with classical particles, which can have any amount of energy. The term is commonly used for the energy levels of the electrons in atoms, ions, or molecules, which are bound by the electric field of the nucleus, but can also refer to energy levels of nuclei or vibrational or rotational energy levels in molecules. The energy spectrum of a system with such discrete energy levels is said to be quantized.
In chemistry and atomic physics, an electron shell, or principal energy level, may be thought of as the orbit of one or more electrons around an atom's nucleus. The closest shell to the nucleus is called the "1 shell" (also called "K shell"), followed by the "2 shell" (or "L shell"), then the "3 shell" (or "M shell"), and so on farther and farther from the nucleus. The shells correspond with the principal quantum numbers (n = 1, 2, 3, 4 ...) or are labeled alphabetically with letters used in the X-ray notation (K, L, M, N…).
Each shell can contain only a fixed number of electrons: The first shell can hold up to two electrons, the second shell can hold up to eight (2 + 6) electrons, the third shell can hold up to 18 (2 + 6 + 10) and so on. The general formula is that the nth shell can in principle hold up to 2(n2) electrons. Since electrons are electrically attracted to the nucleus, an atom's electrons will generally occupy outer shells only if the more inner shells have already been completely filled by other electrons. However, this is not a strict requirement: atoms may have two or even three incomplete outer shells. (See Madelung rule for more details.) For an explanation of why electrons exist in these shells see electron configuration.If the potential energy is set to zero at infinite distance from the atomic nucleus or molecule, the usual convention, then bound electron states have negative potential energy.
If an atom, ion, or molecule is at the lowest possible energy level, it and its electrons are said to be in the ground state. If it is at a higher energy level, it is said to be excited, or any electrons that have higher energy than the ground state are excited. If more than one quantum mechanical state is at the same energy, the energy levels are "degenerate". They are then called degenerate energy levels.

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  1. V

    Energy levels of Lithium. Quantum.

    I am having an issue calculating the first few energy levels of Lithium. To add, electron-electron repulsions are ignored. Since electron-electron repulsion is being ignored, I am starting with the following, For Hydrogen...
  2. S

    Rotational energy levels vs l quantum number

    H2 has a moment of inertia equal to 4.603 x 10-48 kg m2. 1) Calculate its bond length. 2) For the first 3 rotational energy levels, find the a) l quantum number b) ml quantum number c) the degeneracy of each rotational level d) energy eigenvalues e) the magnitude of l Ok so I...
  3. A

    Simple Energy Levels confusion

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  4. Y

    Help Understanding "Energy Levels" in "Particle in a Box"

    Hi... I'm reading about "Particle in a box", and I really can't seem to figure out what "Energy Levels" actually means. The thing in my book is a bit slacky, so I'm not quite sure that I understand. So could anyone maybe explain to me what the "Energy Levels" in "Particle in a box" is ...
  5. J

    Solving the Mystery of Energy Levels in Hydrogen Atom - Jules

    Here's the equation I'm dealing with (it describes the energies that an electron in a hydrogen atom can occupy) : En = -RH(1/n2) The way I understood, the bigger n was the farther away the e- was from the nucleus, so it would have more potential energy. But n is in the denominator in...
  6. W

    What are the quantum numbers for the three lowest degenerate energy states?

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  7. H

    Oxygen energy levels and resonant wavelengths?

    How many energy levels the oxygen atom have? What energy (in eV) is required to get to each level. From my research i have only been able to find the first two levels, the first of which is a forbidden level. 1.=.98eV 2.=1.63eV
  8. I

    If a system is made of 3 atoms with no degeneracy with energy levels

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  9. P

    Atomic Energy Levels Homework: De Broglie Wavelength & Ionisation of Fe

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  10. K

    Energy levels and Group theory

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  11. B

    Hg vapor energy levels & Frank-Hertz experiment

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  12. H

    Calculating Wavelengths & Energy Levels of Hydrogen Atom

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  13. C

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  14. B

    Maximizing Energy Levels: Calculating Electron Transitions and Photon Momentum

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  15. G

    Superposition/electron energy levels

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  16. W

    Energy levels and the Aufbau Principle

    The energy levels of the hydrogen atom are given by En=-me4/(32\pi2\epsilonohbarn2, and are independant of the orbital angular momentum quantum number l, yet the Aufbau principle clealry implies that the energies of s, p, and d orbitals are different. Explain this apparent paradox and provide...
  17. E

    Anomoly in calculations/standard value for electron energy levels

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  18. Jeebus

    Atomic Energy Levels: Calculating Hydrogen's 5 Lowest Levels

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  19. E

    Solving the Vertical Plane Pendulum: Energy Levels & Corrections

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  20. L

    Question about electrons, energy levels and orbits

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  21. Q

    Calculating Lowest Energy Levels of a Rigid Spherical/Cubic Box

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  22. G

    Solving Energy Levels of 2-Spin 1/2 System

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  23. G

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  24. S

    Exploring the Origins of Quantum Energy Level Degeneracy

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  25. R

    Energy levels of hydrogen in atomic units

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  26. R

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  27. Q

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  28. M

    What are the variables in determining energy levels for a finite potential well?

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  29. Z

    Entropy, energy levels and harmonic oscillation.

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  30. S

    Energy levels in finite 1d well

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  31. X

    Energy levels of electrons excited by photons

    I've been researching the change of energy levels of electrons when excited by photons. The equations I have found are... E_n = (-2pi^2 * m * e^4 * Z^2)/(n^2 * h^2) Which gives us the energy of the electron at a particular energy level. m = mass of electron e = electric charge of...
  32. N

    Why Do Free Electron Energy Levels Appear as Multiple Parabolas?

    In many textbooks and sites of solid state physics energy levels for the free electron approximation in band calculations are displayed. The result is a collection of many parabolas, each of these parabolas being centered on a site of the reciprocal lattice. This is not anyway the picture that...
  33. P

    Energy levels in a potential well

    I know this question seems very simple which is why its bugging me so much: Why is the ground state energy not zero? A simple answer would be greatly appreciated
  34. B

    Energy levels from the Schrodinger eqn

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  35. M

    Experiment on Atoms: Determining Energy Levels

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  36. N

    Understanding Quantum Energy Levels in Bohr's Model of the Atom

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  37. D

    What is the relationship between energy levels and de Broglie waves?

    The Formula for computing E(n) = -(Z^2)/(n^2) * Ei is fairly straight forward. Am I right in thinking this formula refers to the energy level of the atom with Z number of protons? This formula, what it yields at least, doesn't depend on the number of electrons the atom has? Also, when...
  38. A

    Understanding Line Spectra: Evidence of Atomic Energy Levels

    Hello, can someone explain how a line spectrum works. How do they provide evidence of energy levels in atoms? I would have thought that energy levels are to do with a different concept of Bands (Valence, Conduction) so how does a line spectrum provide evidence? :confused:
  39. C

    The Boltzmann distribution of uniformly spaced energy levels

    The question states: A system has energy levels uniformly spaced at 3.2x10^-10 J apart. Thepopulations of the energy levels are given by the Boltzmann distribution. What fraction of particles is in the ground state at T=300K. I know that the Boltzmann distribution is: _{}p*j=probability...
  40. T

    How Do Energy Levels Interact When They Are Quantized?

    Pretty basic question: If energy levels (say, of an electron) are quantized, how is an interaction resolved wherein incoming energy (say, a photon) is not of an appropriate amount of energy to result in an appropriate response (say, moving from 1s to 2s in a simple hydrogen atom)? Suppose the...
  41. S

    Energy levels in quantum well structures

    Does anyone knows how to solve the following eigenvalue equation using matlab? so as to obtain the energy levels in a quantum well structure.. or does anyone has the codes or knows where to find the codes to do so? Eigenvalue equation: tan(sq_root(2mE/hbar^2)*(d/2)) = sq_root((V-E)/E) for...
  42. S

    Energy levels in quantum well structures

    Does anyone knows how to solve the following eigenvalue equation using matlab? so as to obtain the energy levels in a quantum well structure.. or does anyone has the codes or knows where to find the codes to do so? Eigenvalue equation: tan(sq_root(2mE/hbar^2)*(d/2)) = sq_root((V-E)/E)...
  43. N

    Electron Configuration and energy levels

    -------------------------------------------------------------------------------- 1. Homework Statement The electrons of a nelectronically-excited neutral magnesium atom have the coniguration 1s^2 2s^2 2p^6 3p 3d. Provide spec notation for the possible quant states of the atom as a whole...
  44. S

    Identical particles and degenrate energy levels

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  45. N

    Determine the energy levels, their degeneracy and wave functions of a particle

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  46. C

    How make a confront between energy levels?

    Hi there. It is a fact that, historically, the Schrodinger Equation provides wrong energy levels for the Hydrogen Atom. The same is for The Relativistic Schrodinger Equation (hehe, this is not known by most of students, seek it in arxiv database, it was the original developed by Schrodinger...
  47. P

    Understanding Muonium Energy Levels and Relativistic Velocities

    A muonium is an atom consisting of a proton and a muon. A muon has the same charge as an electron but about 200x the mass of an electron. Conceptually, how does it make sense that the energy of the first orbit of a muonium is more negative than that of a hydrogen?
  48. P

    Hydrogen energy levels (quantum theory)

    Hello, I really need help with this question. Continuum is when the proton/electrons exist in the continuous band of energy levels above the highest bound energy level of the atom. What can be said about the combined energies of the proton and electron is the hydrogen atom is in...
  49. G

    Kinetic Energy and Radiant Energy levels

    I was wondering how much kinetic energy needs to occur in atom until it emits a photon. For example if you accelerate an atom (like LINAC) what energy and speed is needed for it to emit energy? Or if you heat/vibrate up a copper plate and it starts to glow, what kinetic energy is needed for the...
  50. J

    Line spectrum and energy levels

    Homework Statement What does the line spectrum reveal about the energy levels in an atom? The Attempt at a Solution The energy levels are quantized is that right?
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