Atomic Properties - GRE Subject Test: Physics
Card 0 of 8
What color will be emitted in the 
to 
transition in the Hydrogen Balmer series?
What color will be emitted in the
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.
Here, 
is the wavelength, 
is the Rydberg constant, 
for the Balmer series, and 
refers to the upper atomic level (this is 
in this case). Now, we just need to plug everything in, and solve for wavelength.
By inverting, 
This is in the violet regime of the visible spectrum.
Here,
By inverting,
What is the energy of the photon emitted when a Hydrogen atom makes a transition from the 
to the 
atomic energy level?
What is the energy of the photon emitted when a Hydrogen atom makes a transition from the
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, where 
refers to the final and initial energy levels, respectively.
However, since the question asked what is the energy of the photon, it is the absolute value of the energy calculated above because of conservation of energy. The photon carries away the energy lost by the atom.
However, since the question asked what is the energy of the photon, it is the absolute value of the energy calculated above because of conservation of energy. The photon carries away the energy lost by the atom.
What color will be emitted in the to transition in the Hydrogen Balmer series?
What color will be emitted in the
Tap to see back →
.
Here, is the wavelength, is the Rydberg constant, for the Balmer series, and refers to the upper atomic level (this is in this case). Now, we just need to plug everything in, and solve for wavelength.
By inverting, This is in the violet regime of the visible spectrum.
Here,
By inverting,
What is the energy of the photon emitted when a Hydrogen atom makes a transition from the to the atomic energy level?
What is the energy of the photon emitted when a Hydrogen atom makes a transition from the
Tap to see back →
, where refers to the final and initial energy levels, respectively.
However, since the question asked what is the energy of the photon, it is the absolute value of the energy calculated above because of conservation of energy. The photon carries away the energy lost by the atom.
However, since the question asked what is the energy of the photon, it is the absolute value of the energy calculated above because of conservation of energy. The photon carries away the energy lost by the atom.
What color will be emitted in the to transition in the Hydrogen Balmer series?
What color will be emitted in the
Tap to see back →
.
Here, is the wavelength, is the Rydberg constant, for the Balmer series, and refers to the upper atomic level (this is in this case). Now, we just need to plug everything in, and solve for wavelength.
By inverting, This is in the violet regime of the visible spectrum.
Here,
By inverting,
What is the energy of the photon emitted when a Hydrogen atom makes a transition from the to the atomic energy level?
What is the energy of the photon emitted when a Hydrogen atom makes a transition from the
Tap to see back →
, where refers to the final and initial energy levels, respectively.
However, since the question asked what is the energy of the photon, it is the absolute value of the energy calculated above because of conservation of energy. The photon carries away the energy lost by the atom.
However, since the question asked what is the energy of the photon, it is the absolute value of the energy calculated above because of conservation of energy. The photon carries away the energy lost by the atom.
What color will be emitted in the to transition in the Hydrogen Balmer series?
What color will be emitted in the
Tap to see back →
.
Here, is the wavelength, is the Rydberg constant, for the Balmer series, and refers to the upper atomic level (this is in this case). Now, we just need to plug everything in, and solve for wavelength.
By inverting, This is in the violet regime of the visible spectrum.
Here,
By inverting,
What is the energy of the photon emitted when a Hydrogen atom makes a transition from the to the atomic energy level?
What is the energy of the photon emitted when a Hydrogen atom makes a transition from the
Tap to see back →
, where refers to the final and initial energy levels, respectively.
However, since the question asked what is the energy of the photon, it is the absolute value of the energy calculated above because of conservation of energy. The photon carries away the energy lost by the atom.
However, since the question asked what is the energy of the photon, it is the absolute value of the energy calculated above because of conservation of energy. The photon carries away the energy lost by the atom.