source : yahoo.com
All of the orbitals in a given subshell have the same value of the __________ quantum number?
So the answer choices are:
d) a and b
e) b and c
Can you please add some color as to why you believe that to be the answer and why other answer choices would be incorrect?
My thoughts were that the answer to this should be d (in a given subshell, i.e. 2p, both the n and l are the same, regardless of the orbital), however I got this marked wrong on a quiz and supposedly the answer should be a. I could understand the answer being choice a if it asked for the orbitals in a given energy level or electron shell, but that is not what the question is asking so… Please help, thanks.
Chemistry: Chapter 6 Study Guide Flashcards | Easy Notecards – 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)?n is the principal quantum number ℓ is the azimuthal quantum number mℓ is the magnetic quantum number. By the way, you sometimes see n labeled as the Principle Quantum Number. The two electrons are in different orbitals with the 4f subshell. We know this by the differing mℓ values.The combination of all quantum numbers of all electrons in an atom is … All orbitals that have the same n value are in the same principal level. The number of values of the orbital angular number l can also be used to identify the number of subshells in a principal electron shell
ChemTeam: Quantum Number Problems – 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…Orbitals with the same value of Principal Quantum number , n. Therefore, the principal quantum number for the outermost electron in a Lithium atom is n=2.If you've never How many orbitals are allowed if the subshell if the angular momentum quantum number for electrons in that subshell is 3?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.
Quantum Numbers for Atoms – Chemistry LibreTexts – 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)).Question: All Of The Orbitals In A Given Subshell Have The Same Value As The _ Quantum Number. A. Angular Momentum B. Principal All of the orbitals in a given subshell have the same value as the _ quantum number. a. angular momentum b. principal c. magnetic d…First of all, is this question asking me how many orbitals there are with the given quantum numbers? Second, how do I go about finding that out. That equation tells you how many possible m_l values there are for a specific subshell, and thus how many orbitals are in a subshell.