according to this bohr model which transition would involve a photon of 4.58x10^-19J and why? and...
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 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
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...
1. in the mercury emission spectrum, three intense emission bands can be observed. in the Bohr model of the atom, each of these bands corresponds to a transition from a particular quantum orbital (energy level)n= 1,2,3 ..... for mercury, what color band corresponds to the largest energy difference between levels and which is the smallest? why is that? 2. is it possible for an atom to absorb a photon of red light and remit a photon of violet light? why?
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,...
7.24. If the frequency of a photon of red light is twice that of a photon of infrared radiation, how much more energy does the photon of red light have? mic 7.28. Which radiation has the longer wavelength: (a) radio waves from an AM radio station broadcasting at 680 kHz or (b) infrared radiation emitted by the surface of Earth (A-15 μm)? nts t: 7.60. The hydrogen atomic emission spectrum includes a UV line with a wavelength of 92.3 nm....
Understand Bohr's atomic model Question According to the Bohr model: Select the correct answer below: O Electrons are constantly emitting electromagnetic radiation. O Planck's ideas of quantization and Einstein's finding that light consists of photons whose energies are proportional to their frequency are not applicable. O Continuous values are used for the angular momentum, energy, and orbit radius. O Electrons only emit or absorb a photon if they move to a different orbit within the atom, FEEDBACK MORE INSTRUCTION Content...
Why did the scientists had to come up with a different model after Bohr? a) Bohr considered electrons to have both a known radius and orbit b) Bohr assumed that electrons emit/absorb a photon when changing orbitals c) All mentioned reasons d) Bohr could not predict the orbitals of electrons of larger atoms
Bohr model of an atom In the Bohr model of an atom (see figure below) the electrons move on fixed circular orbits around the nucleus. On the th orbit the magnitude of the angular momentum of the electron is given by where ћ 6.626 x 10-34 m 2 kg/s is the reduced Planck constant. +Ze (a) Calculate the radius r of an electron orbit in the hydrogen atom. Express your answer in terms of n, ћ, co, the electron charge...