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A beam of hydrogen atoms in the 2s state with j-3/2 is directed through a Stern-Gerlach...
In the stern-gerlach experiment, silver atoms are heated to 1000 K. Then a thin beam of...
In the stern-gerlach experiment, silver atoms are heated to 1000 K. Then a thin beam of these atoms is passed through a magnetic field that varies in space with a gradient of 0.75 Weber/cm over a distance of 10 cm, in the direction of the 2 axis. The beam after leaving the field travels 12 cm, before hitting a photographic plate. a) Calculate the separation of the two beam components on the screen. Use the average beam speed with the...
A beam of spin particles is sent through a series of three Stern-Gerlach filtering devices. Initially the beam of parti...
A beam of spin particles is sent through a series of three Stern-Gerlach filtering devices. Initially the beam of particles has equal numbers of particles with S, = h/2 and S.--h/2. The first filter (F+ transmits particles with S. h/2 and filters out particles with S, =-h/2. The second filter (Fr.) transmits particles with Sn-h/2 and filters out particles with S-h/2. A last filter (F- transmits particles with S--h/2 and filters out particles with S,-h/2 (i) Consider the state 2)12...
SG 3 *** 11- SG 2 Y- SG 1 Trap Trap Figure 1: Schematic illustration of...
SG 3 *** 11- SG 2 Y- SG 1 Trap Trap Figure 1: Schematic illustration of a the stream of atoms described, each individually pre- pared in the superposition V = 1 + , being measured by sequential Stern-Gerlach machines. 2. (20 points) Spin of an electron is a quantum mechanical observable, and as such, there are corresponding operators for electron spin. For example, the operator S, relates to the observable called 2-spin' and has exactly two associated eigenfunctions and...
[5] A large number of spin-1/2 particles are run through a Stern-Gerlach machine. When they emerge. all particles have the same spin wave function s)- (where the vector representation is in the...
[5] A large number of spin-1/2 particles are run through a Stern-Gerlach machine. When they emerge. all particles have the same spin wave function s)- (where the vector representation is in the basis set of eigenvectors of Sz. The spin of the particles is measured in the z-direction. On average, 2/3 of the particles have spin in the +z direction and 1/3 in the z direction. (a) Determine one possible normalized spin wave functio tere a single unique solution to...
[5] A large number of spin-1/2 particles are run through a Stern-Gerlach machine. When they emerge. all particles have the same spin wave function lvs) () (where the vector regpresenta ion is i t...
[5] A large number of spin-1/2 particles are run through a Stern-Gerlach machine. When they emerge. all particles have the same spin wave function lvs) () (where the vector regpresenta ion is i to basis set of eigenvectors of Sz. The spin of the particles is measured in the z-direction. On average, 2/3 of the particles have spin in the +z direction and 1/3 in the -z direction. (a) Determine one possible normalized spin wave function (ex) (b) Is there...
Need only 2 and 4 thank you! 2. A quantum object whose state is given by...
Need only 2 and 4 thank you!
2. A quantum object whose state is given by lys)- a Stern-Gerlach device with the magnetic field oriented in the y-direction. What is the probability that this object will emerge from the + side of this device? +),-212 İs sent through 3. McIntyre, Chapter 2, Problem 23 4. Suppose that operators A and B are both Hermitian, i.e., At-A and B. B Answer the following and show your work: (a) Is A Hermitian?...
2017 (j) A monochromatic laser beam, with a wavelength of 532 nm passes through a diffraction...
2017 (j) A monochromatic laser beam, with a wavelength of 532 nm passes through a diffraction grating. If the second order diffraction maximum occurs at an angle of 35.0 degrees to the straight through position, calculate the separation of adjacent slits on the grating. (n) Calculate the ionisation potential of ground state hydrogen in units of eV. Q4: (c) An object is placed 30 cm in front of a concave mirror with a focal length of 20 cm. i. Draw...
What is the ground-state electron configuration of the Al^3+ ion? a. 1s^2 2s^2 2p^6 3s^2 3p^4...
What is the ground-state electron configuration of the Al^3+ ion? a. 1s^2 2s^2 2p^6 3s^2 3p^4 b. 1s^2 2s^2 2p^6 3s^2 3p^1 c. 1s^2 2s^2 2p^3 d. 1s^2 2s^2 2p^1 e. 1s^2 2s^2 2p^6 Which of the following is the correct noble gas electron configuration for an ion of barium? a. [Kr]5s^2 4d^10 5p^6 6s^2 b. [Kr]5s^2 5p^6 c. [Kr]5s^2 4d^10 5p^6 6s^1 d. [Kr]5s^2 4d^10 5p^6 e. [Kr]5s^2 4d^10 5p^6 6s^2 6p^2 How many orbitals are possible when l...
A certain type of atom (not hydrogen) has three energy levels numbered 1, 2, and 3,...
A certain type of atom
(not hydrogen) has three energy levels numbered 1, 2, and
3, as shown in the upper illustration. There are three possible
transitions between these levels that lead to emission of a photon:
3 ® 1, 3 ® 2, and 2 ® 1.
The lower illustration shows the emission spectrum from a gas of
these atoms. There are three emission lines, A, B, and C.
(a) Rank the photons emitted in the transitions 3 ®...
2. This problem will help you understand how two atoms can form a molecule through the...
2. This problem will help you understand how two atoms can form a molecule through the process of chemical bonding. The physics behind the chemical bonding is very much the same as that discussed in energy splitting process to form energy bands in a macroscopic matter state where we have a lot of atoms involved but all atoms are nicely arranged to form a kind of periodic structure. In this problem, let's make things even simpler: we only consider two...
In the stern-gerlach experiment, silver atoms are heated to 1000 K. Then a thin beam of these atoms is passed through a magnetic field that varies in space with a gradient of 0.75 Weber/cm over a distance of 10 cm, in the direction of the 2 axis. The beam after leaving the field travels 12 cm, before hitting a photographic plate. a) Calculate the separation of the two beam components on the screen. Use the average beam speed with the...
A beam of spin particles is sent through a series of three Stern-Gerlach filtering devices. Initially the beam of particles has equal numbers of particles with S, = h/2 and S.--h/2. The first filter (F+ transmits particles with S. h/2 and filters out particles with S, =-h/2. The second filter (Fr.) transmits particles with Sn-h/2 and filters out particles with S-h/2. A last filter (F- transmits particles with S--h/2 and filters out particles with S,-h/2 (i) Consider the state 2)12...
SG 3 *** 11- SG 2 Y- SG 1 Trap Trap Figure 1: Schematic illustration of a the stream of atoms described, each individually pre- pared in the superposition V = 1 + , being measured by sequential Stern-Gerlach machines. 2. (20 points) Spin of an electron is a quantum mechanical observable, and as such, there are corresponding operators for electron spin. For example, the operator S, relates to the observable called 2-spin' and has exactly two associated eigenfunctions and...
[5] A large number of spin-1/2 particles are run through a Stern-Gerlach machine. When they emerge. all particles have the same spin wave function s)- (where the vector representation is in the basis set of eigenvectors of Sz. The spin of the particles is measured in the z-direction. On average, 2/3 of the particles have spin in the +z direction and 1/3 in the z direction. (a) Determine one possible normalized spin wave functio tere a single unique solution to...
[5] A large number of spin-1/2 particles are run through a Stern-Gerlach machine. When they emerge. all particles have the same spin wave function lvs) () (where the vector regpresenta ion is i to basis set of eigenvectors of Sz. The spin of the particles is measured in the z-direction. On average, 2/3 of the particles have spin in the +z direction and 1/3 in the -z direction. (a) Determine one possible normalized spin wave function (ex) (b) Is there...
Need only 2 and 4 thank you!
2. A quantum object whose state is given by lys)- a Stern-Gerlach device with the magnetic field oriented in the y-direction. What is the probability that this object will emerge from the + side of this device? +),-212 İs sent through 3. McIntyre, Chapter 2, Problem 23 4. Suppose that operators A and B are both Hermitian, i.e., At-A and B. B Answer the following and show your work: (a) Is A Hermitian?...
What is the ground-state electron configuration of the Al^3+ ion? a. 1s^2 2s^2 2p^6 3s^2 3p^4 b. 1s^2 2s^2 2p^6 3s^2 3p^1 c. 1s^2 2s^2 2p^3 d. 1s^2 2s^2 2p^1 e. 1s^2 2s^2 2p^6 Which of the following is the correct noble gas electron configuration for an ion of barium? a. [Kr]5s^2 4d^10 5p^6 6s^2 b. [Kr]5s^2 5p^6 c. [Kr]5s^2 4d^10 5p^6 6s^1 d. [Kr]5s^2 4d^10 5p^6 e. [Kr]5s^2 4d^10 5p^6 6s^2 6p^2 How many orbitals are possible when l...
A certain type of atom
(not hydrogen) has three energy levels numbered 1, 2, and
3, as shown in the upper illustration. There are three possible
transitions between these levels that lead to emission of a photon:
3 ® 1, 3 ® 2, and 2 ® 1.
The lower illustration shows the emission spectrum from a gas of
these atoms. There are three emission lines, A, B, and C.
(a) Rank the photons emitted in the transitions 3 ®...
2. This problem will help you understand how two atoms can form a molecule through the process of chemical bonding. The physics behind the chemical bonding is very much the same as that discussed in energy splitting process to form energy bands in a macroscopic matter state where we have a lot of atoms involved but all atoms are nicely arranged to form a kind of periodic structure. In this problem, let's make things even simpler: we only consider two...
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