Explain how electrons can absorb and emit light to move among different energy levels within an...

It takes 486.0 kJ/mol to convert sodium atoms to Na+ ions. Sodium atoms absorb and emit...

It takes 486.0 kJ/mol to convert sodium atoms to Na+ ions. Sodium atoms absorb and emit light of wavelengths 589.6 and 590.0 nm. Calculate the energy of the 589.6 nm light in kilojoules per mole. 15. If a sodium atom has already absorbed a 590.0 nm photon, what is the wavelength of the second photon a sodium atom must absorb to remove an electron?

which statement below does not follow the Bohr Model? when an atom image light, electrons fall...

which statement below does not follow the Bohr Model? when an atom image light, electrons fall from a higher orbit into a lower orbit The energy emitted from a relaxing electron can have any wavelength electrons exist in specific quantized Orbitz when energy is absorbed by atoms the electrons are promoted to a higher energy Orbitz none of the above

The maximal light wavelength capable to emit electrons from a certain metal is 660nm. Now, light...

The maximal light wavelength capable to emit electrons from a certain metal is 660nm. Now, light of wavelength of400nm incident on this metal. What is the maximal kinetic energy (in ev) of the emitted electrons?

We can observe the differences in energy levels by observing the light that is emitted when...

We can observe the differences in energy levels by observing the light that is emitted when atoms are heated. When atoms are heated, the electrons can jump up to a higher energy level. When one electron falls back down to a lower energy level, a single photon of light is emitted with an energy equal to the difference in energy of the two levels. We call this atomic emission spectroscopy. If an electron in an atom jumps from the n...

1- Atoms absorb all wavelengths of light that incident on them a- True b- False 2-...

1- Atoms absorb all wavelengths of light that incident on them a- True b- False 2- Atoms of different elements have different energy levels for electrons a- True b- False

It requires a photon with a minimum energy of 4.41 ✕ 10-19 J to emit electrons...

It requires a photon with a minimum energy of 4.41 ✕ 10-19 J to emit electrons from sodium metal. c) If sodium is irradiated with light of 389 nm, what is the maximum possible kinetic energy of the emitted electrons?(answer in J) (d) What is the maximum number of electrons that can be freed by a burst of light (λ = 389 nm) whose total energy is 1.20 µJ? (answer in electrons)

Titanium metal requires a photon with a minimum energy of 6.94×10−19J to emit electrons. Part A...

Titanium metal requires a photon with a minimum energy of 6.94×10−19J to emit electrons. Part A What is the minimum frequency of light necessary to emit electrons from titanium via the photoelectric effect? Express your answer using three significant figures. ν =   s−1   SubmitMy AnswersGive Up Part B What is the wavelength of this light? Express your answer using three significant figures. λ =   nm   SubmitMy AnswersGive Up Part C This question will be shown after you complete previous question(s)....

Equation 37-14b in the textbook gives the energy emitted by Hydrogen when electrons transition between states...

Equation 37-14b in the textbook gives the energy emitted by Hydrogen when electrons transition between states (En=-(13.6 eV) Z2/n2, n=1,2,3,...). When they do so, they absorb or emit a particle of light called a photon with energy E=hf. Here f is the frequency of light and h is a constant. b) How much energy is emitted if an electron in the n=3 state transitions to the n=2 state?

If an atom were to emit a photon whose wavelength was 5200 A, how much energy...

If an atom were to emit a photon whose wavelength was 5200 A, how much energy did the atom lose. answer 3.8 x 10^-19. I got 3.8/ 3.6 x 10^-20 is it wrong ???? How much energy would a mole of these atoms lose? 230 kJ answer. Please explain and Cesium metal requires 4.78 x 10^-19 J of energy to remove an electron from its surface. What is the longest wavelength of radiation sufficient to eject such a photoelectron? Why...

Which of the following statements about how light can interact with atoms is correct? (Check all...

Which of the following statements about how light can interact with atoms is correct? (Check all that are correct) The photons most likely to ionize atoms have the longest wavelengths An atom can most easily absorb a photon with an energy that is equal to the difference in energy of two electron states. The frequencies of the spectral lines produced by an excited atom give the energies of individual electron states. The frequencies of bright lines produced by excited atoms...