For a H-atom, determine the number of allowed states corresponding to the principal quantum number n...

Which of the following states of the hydrogen atom, as defined only by the principal quantum...

Which of the following states of the hydrogen atom, as defined only by the principal quantum number, orbital angular momentum quantum number, and magnetic quantum number, is allowed? a. n=0, l =2,ml =1 b. n=5, l =2,ml =3 c. n=0, l =2,ml =2 d. n=5, l =2,ml =0 e. n=2, l =2,ml =0

1- For some atom, consider an electron shell corresponding to a principal quantum number n. Answer...

1- For some atom, consider an electron shell corresponding to a principal quantum number n. Answer the questions (a)-(b) below. (a) What is the number of electrons in a fully occupied subshell with a given orbital quantum number l? Explain your answer. (b) What is the number of electrons in a fully occupied shell with a given principal quantum number n? Explain your answer. Hint: For the part (b), use the known mathematical formulas for finite sums: 1 ? ?=0...

A hydrogen atom is in the 6g state. Determine the principal quantum number. Determine the energy...

A hydrogen atom is in the 6g state. Determine the principal quantum number. Determine the energy of the state. Determine the quantum number ℓ. Determine the orbital angular momentum. Determine the possible values for the magnetic quantum number.

For the 3d state (orbital) of the hydrogen atom, the principal quantum number n=3. The orbital...

For the 3d state (orbital) of the hydrogen atom, the principal quantum number n=3. The orbital quantum number l = 2. For an electron with these quantum numbers, what is the smallest angle (in degrees) that an electron's spin axis (angular momentum axis) can make with respect to an applied magnetic field?

For these quantum numbers, determine the number of electrons an atom could have. a) n=3 b)...

For these quantum numbers, determine the number of electrons an atom could have. a) n=3 b) n=4 l=2 c) n=6 l=2 ml=-1

a) Determine the possible quantum number states for n = 5. b) What is the total...

a) Determine the possible quantum number states for n = 5. b) What is the total degeneration?, and c) calculate the energy at E5 level? d) How much would be the degeneration if we consider the quantum number of the spin? (you can organize them in a table)

An atom has a total of 18 electrons. a)What is the principal quantum number of the...

An atom has a total of 18 electrons. a)What is the principal quantum number of the outermost shell? In detail b)How many electrons does the outermost shell shell contain? In detail

19. Which of the following sets of quantum number is not allowed? A. n = 4,...

19. Which of the following sets of quantum number is not allowed? A. n = 4, ℓ = 2, mℓ = -2 B. n = 5, ℓ = 0, mℓ = 0 C. n = 6, ℓ = 3, mℓ = 1 D. n = 3, ℓ = 1, mℓ = −1 E. A–D are all allowed sets of quantum numbers

The quantum state of a particle can be specified by giving a complete set of quantum...

The quantum state of a particle can be specified by giving a complete set of quantum numbers (n,l, ml,ms). How many different quantum states are possible if the principal quantum number is n = 2? To find the total number of allowed states, first write down the allowed orbital quantum numbers l, and then write down the number of allowed values of ml for each orbital quantum number. Sum these quantities, and then multiply by 2 to account for the...

A shell includes all orbitals with the same principal quantum number (n). In this figure the...

A shell includes all orbitals with the same principal quantum number (n). In this figure the principal quantum numbers are designated along the bottom (n = 1, n = 2, etc.) and the orbitals contained within the shell are shown as individual, colored boxes. The first shell (n=1) contains only 1 orbital, represented by 1 yellow box. The second shell (n=2) contains a total of 4 orbitals, represented by 1 yellow box and 3 blue boxes. Use the figure to...