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If the intensity of a photon is increased, but the photon has a lower energy than the electron to be ejected from a metal then
electrons could have a dual wave-particle nature.
it is similar to Bohr's theory.
an electron's position cannot be known precisely but can be predicted.
spectral line.
emission of electromagnetic radiation.
the electron will not be ejected
energy must be absorbed.
ground state.
All of the following describe the Schrödinger wave equation except
electrons could have a dual wave-particle nature.
it is similar to Bohr's theory.
an electron's position cannot be known precisely but can be predicted.
spectral line.
emission of electromagnetic radiation.
the electron will not be ejected
energy must be absorbed.
ground state.
For an electron in an atom to change from the ground state to an excited state,
electrons could have a dual wave-particle nature.
it is similar to Bohr's theory.
an electron's position cannot be known precisely but can be predicted.
spectral line.
emission of electromagnetic radiation.
the electron will not be ejected
energy must be absorbed.
ground state.
The French scientist Louis de Broglie theorized that
electrons could have a dual wave-particle nature.
it is similar to Bohr's theory.
an electron's position cannot be known precisely but can be predicted.
spectral line.
emission of electromagnetic radiation.
the electron will not be ejected
energy must be absorbed.
ground state.
A three-dimensional region around a nucleus where an electron may be found is called a(n)
electrons could have a dual wave-particle nature.
it is similar to Bohr's theory.
an electron's position cannot be known precisely but can be predicted.
spectral line.
emission of electromagnetic radiation.
the electron will not be ejected
energy must be absorbed.
ground state.
The change of an atom from an excited state to the ground state always requires
electrons could have a dual wave-particle nature.
it is similar to Bohr's theory.
an electron's position cannot be known precisely but can be predicted.
spectral line.
emission of electromagnetic radiation.
the electron will not be ejected
energy must be absorbed.
ground state.
According to the quantum theory of an atom, in an orbital
electrons could have a dual wave-particle nature.
it is similar to Bohr's theory.
an electron's position cannot be known precisely but can be predicted.
spectral line.
emission of electromagnetic radiation.
the electron will not be ejected
energy must be absorbed.
ground state.
14. If electrons in an atom have the lowest possible energies, the atom is in the
electrons could have a dual wave-particle nature.
it is similar to Bohr's theory.
an electron's position cannot be known precisely but can be predicted.
spectral line.
emission of electromagnetic radiation.
the electron will not be ejected
energy must be absorbed.
ground state.
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