According to the Bohr model of hydrogen, which electron transition will emit a photon in the visible range?
Choose all that apply
5->4
5->2
6->1
4->2
6->3
According to the Bohr model of hydrogen, which electron transition will emit a photon in the...
According to the Bohr model of the atom, which electron transition would correspond to the shortest wavelength line in the visible emission spectra for hydrogen? A. n=2 to n=5 B. n=6 to n=4 C. n=3 to n=2 D. n=6 to n=2 Please tell me the reason.
according to this bohr model which transition would involve a
photon of 4.58x10^-19J and why? and if transition C corresponds
with infrared radiation can transition B correspond with yellow
light and why? thank you!!!
n=1
PROBLEM #6. In BALMER lines in Hydrogen atom in Bohr model. An electron makes transition from n=4 to n=2. A. Find the energy of the emitted radiation (photon) in this transition in ev. B. Find the wave length, frequency, and its De Broglie momentum. C. Can you make a guess of the color of this photon? D. FOR THE ELECTRON IN n= 2 CALCULATE ITS SPEED, RADIUS FROM THE NUCLUS, LINEAR MOMENTUM, ANGULAR MOMENTUM, KINETIC ENERGY, TOTAL ENERGY, AND De...
PROBLEM #6. In BALMER lines in Hydrogen atom in Bohr model. An electron makes transition from n=4 to n2 A. Find the energy of the emitted radiation (photon) in this transition in ev. B. Find the wave length, frequency, and its De Broglie momentum C. Can you make a guess of the color of this photon? D. FOR THE ELECTRON IN n=2 CALCULATE ITS SPEED, RADIUS FROM THE NUCLUS, LINEAR MOMENTUM, ANGULAR MOMENTUM, KINETIC ENERGY, TOTAL ENERGY, AND De Broglie...
Question 5 5 pts According to the Bohr model of the hydrogen atom, when the electron drops from level 8 to level 5, it emits a photon with what wavelength? 3.740 pm 750.1 nm none of these 1.945 um
Use the Bohr model to address this question. When a hydrogen atom makes a transition from the 5^th energy level to the 2^hd, counting the ground level as the first, what is the energy of the emitted photon? Express the answer in electron volts. What is the wavelength, in nanometers, of the emitted photon? What is the radius, in nanometers, of the hydrogen atom in its initial (5^th) energy level?
Use the Bohr model to address this question. When a hydrogen atom makes a transition from the 6 th energy level to the 2nd, counting the ground level as the first, what is the energy ? of the emitted photon in electron volts? ?= eV What is the wavelength ? of the emitted photon in nanometers? ?= nm At what radius ? does an electron in the 5th energy level orbit the hydrogen nucleus? Express your answer in nanometers. ?=...
Use the Bohr model to address this question. When a hydrogen atom makes a transition from the 6 th energy level to the 2nd, counting the ground level as the first, what is the energy ? of the emitted photon in electron volts? ?= eV What is the wavelength ? of the emitted photon in nanometers? ?= nm At what radius ? does an electron in the 5th energy level orbit the hydrogen nucleus? Express your answer in nanometers. ?=...
A-D Please
PROBLEM #6. In BALMER lines in Hydrogen atom in Bohr model. An electron makes transition from n-4 to n-2. A. Find the energy of the emitted radiation (photon) in this transition in ev. B. Find the wave length, frequency, and its De Broglie momentum. C. Can you make a guess of the color of this photon? D. FOR THE ELECTRON IN N= 2 CALCULATE ITS SPEED, RADIUS FROM THE NUCLUS, LINEAR MOMENTUM, ANGULAR MOMENTUM, KINETIC ENERGY, TOTAL ENERGY,...
According to the Bohr model for the hydrogen atom, the energy necessary to excite an electron from n=2 to n=3 is__________ than the energy necessary to excite an electron from n=3 to n=4? a. less than. B. greater than c. equal to