11) All of the orbitals in a given subshell have the same value as the _ quantum number. 21) Which quantum numbers must be the same for the orbitals that they designate to be degenerate in a one-electron system (such as hydrogen)?In chemistry and quantum physics, quantum numbers describe values of conserved quantities in the dynamics of a quantum system. Quantum numbers correspond to eigenvalues of operators that commute with the Hamiltonian—quantities that can be known with precision at the same time as the...The magnetic quantum number determines the number of preferred orientations of the electron present in a subshell. The values allowed depends on the value of l, the angular momentum quantum number, m can assume all integral values between -l to +l including zero.All orbitals that have the same value of n are said to be in the same shell (level). For a hydrogen atom with n=1, the electron is in its ground state; if Specifies the orientation in space of an orbital of a given energy (n) and shape (l). This number divides the subshell into individual orbitals which hold...Principal Shells and Subshells. All orbitals with the same value of n are in the same principal The number of subshells in a principal electronic shell is the same as the number of allowed values of L. In the first principal The name given to a subshell depends on the value of the L quantum number.
Quantum number - Wikipedia
The quantum numbers that are used in the identification of an electron are n, l, m, and s. n= principle quantum number. People playing a basketball game in a gymnasium make up a closed system with 17,125 J of energy. At the beginning of the game the system has 16,250 J … of ME, and at the end it...Each box represents a subshell of the p-orbitals. All together, they represent a set of p-orbitals. An upward spinning arrow represents `+1/2` spin. Quantum Numbers operate on the same principles, only instead of describing coins, we're describing the `e^-` in a given atom.9) All of the orbitals in a given subshell have the same value of the _ quantum number. 19) Which quantum numbers must be the same for the orbitals that they designate to be degenerate in a one-electron system (such as hydrogen)?The quantum numbers that are used in the identification of an electron are n, l, m, and s. n= principle quantum number. If 10.0 ml of the solution on the right are withdrawn from the 100 ml beaker and diluted again in a similar manner, what is the new concentration? m nacl...
Quantum Numbers - QuantumStudy.com | Shapes and size of orbitals
Quantum Number. Name. Possible Values. Information. n. principal quantum number. Defines the orientation of the subshell orbital. No electron in an atom shares all four quantum numbers. The shapes of orbitals are not given by the quantum numbers, but are probability densities - three dimensional maps of the space around the nucleus where an electron will be found 99 percent of the...A subshell is defined as a group of orbitals which have the same azimuthal quantum numbers within a particular principal quantum number (shell). will act as whether this is spinning. additionally, those quantum variables fall out of the partial differnential wave equation (shrodigners (sp)).Quantum numbersThese four quantum numbers are used to describe the probable location of an electron in an atom. The magnetic quantum number describes the energy levels available within a subshell and yields the projection of the orbital angular momentum along a specified axis.Does that mean that all orbitals in a subshell are degenerate? The simplified, though naive, answer to this question is yes - all of the orbitals in a given electron shell have the same energy. If all orbitals with the same principal quantum number are degenerate then why do we say the lowest...All orbitals that have the same value of n are said to be in the same shell (level). For a hydrogen atom with n=1, the electron is in its ground state; if the electron is in the n=2 orbital, it is in an excited state. The total number of orbitals for a given n value is n2.
So the answer alternatives are:
a) foremost
b) azimuthal
c) magnetic
d) a and b
e) b and c
Can you please upload some color as to why you believe that to be the answer and why different solution alternatives would be flawed?
My ideas had been that the solution to this will have to be d (in a given subshell, i.e. 2p, both the n and l are the same, regardless of the orbital), alternatively I were given this marked unsuitable on a quiz and supposedly the resolution will have to be a. I could understand the answer being choice a if it asked for the orbitals in a given energy level or electron shell, however that isn't what the question is looking so... Please lend a hand, thank you.
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