a photon collide inelastically to a ground state H- atom. Colliding photon has 10.2 ev energy. in time difference of microsecond range an another photon with 15 ev energy collide with same H-atom. What will be recorded by the detector.
a. two photons of 10.2 ev energy
b.two photon of 1.4 ev energy
c. one photon with 10.2 ev energy and one electron with 1.4 ev
energy
d. one photon with 10.2 ev energy another photon with 1.4 ev
energy
a photon collide inelastically to a ground state H- atom. Colliding photon has 10.2 ev energy....
An electron in the ground state of a hydrogen atom (-13.6 eV) absorbs a 10.2 eV photon and jumps to the first excited state. What is the energy in eV of the first excited state?
A hydrogen atom initially in its ground state (n = 1) absorbs a photon and ends up in the state for which n = 3. (a) What is the energy of the absorbed photon? eV (b) If the atom eventually returns to the ground state, what photon energies could the atom emit? 13.6 eV, 1.89 eV, 10.2 eV12.09 eV 12.09 eV, 1.89 eV1.89 eV, 10.2 eV12.09 eV, 1.89 eV, 10.2 eV
A hydrogen atom in the ground state absorbs a 20 eV photon. What is the speed of the liberated electron?
A H-atom is in an excited state represented by a dot. What are the possible energies of emitted photons? 10.se -3.4ev -13.6V 0.65 eV, 0.85 eV 0.85 eV, 1.9eV 3.4 eV, 1.9 eV 1.9 eV, 10.2eV 1.9 eV, 10.2eV, 12.1eV QUESTION 2 3.4ev A 12.0 eV electron collides with an H-atom in its ground state. What is the energy of the electron after the collision? -13.6ev 12.0 eV 10.5 eV 8.6 eV 1.8 eV 1.6 eV QUESTION 3 A collection...
For the hydrogen atom, its energy at ground state is 13.6 eV, at first excited state is 3.4 eV at second excited state is 1.5 eV and at the third excited state is 0.85 eV. i) Give the energy value for the first two states in Joule (J). [1eV =1.6 x 10-19 J] (2 marks) ii) With the aid of schematic diagram, determine the energy of emitted photon when the atom jumps from the first and third excited states to...
The electron in a ground-state H atom absorbs a photon of wavelength 121.57 nm. To what energy level does the electron move?
A hydrogen atom in a state having a binding energy (the energy required to remove an electron) of -0.850 eV makes a transition to a state with an excitation energy (the difference between the energy of the state and that of the ground state) of 12.089 eV. (a) What is the energy of the photon emitted as a result of the transition? What are the (b) higher quantum number and (c) lower quantum number of the transition producing this emission?...
An electron with initial kinetic energy Ki = 7.5 eV, collides with a ground state atom with energy levels as shown. E3 = -0.9 eV E2 = -3.0 eV E1 = -6.0 eV E0 = -12.0 eV 14 pt What is the final kinetic energy of the electron after the collision? 7.A 6.00 eV B 1.50 eV C 3.00 eV D 7.50 eV E 0.00 eV.
1) photon dropped Eph1 with frequency vph1 on unexcited hydrogen atom on ground state then the atom ionized anf an electron comes out with kinetic energy Te , if this electron Unite with another ionic hydrogen then a third hydrogen atom in first excited level on comes out because of this unite with -3.4eV , and a new photon comes out with 466 λ. calculate the energy of first photon Eph1 and its frequency vph1 . 2) calculate the velocity...
Electrons in an unknown atom(not hydrogen) are excited from the ground state to the n=3 energy level. As these electrons make quantum jumps back to the ground state, photons of three different energies are emitted. The most energetic photon has an associated wavelength of 62.2 nm and the least energetic photon has an associated wavelength of 207 nm. What is the associated wavelength of the other type pf photon? The answer is 3-1 (20 eV), 3-2 (6 eV) and 2-1...