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A 4d electron; that is for apex :)
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What subshell do the quantum numbers n 3 l 1 ml -1 describe?
That's correct! l = 3 corresponds to the f-subshell
What subshell do the quantum numbers n equals 2 l equals 0 ml equals 0 describe?
The correct answer is 2s. n = 2 corresponds the 2nd energy level and l = 0 corresponds to the s-subshell. You did not need to know ml = 0 to get the answer
What is the range of the following measurements 3.1 ml 2.7 ml 4.6 ml 1.9 ml 8.7 ml?
It is 6.8ml, the difference between the lowest and highest numbers.
What is the correct answer for the calculation of a volume (in mL) with measured numbers?
We have literally no idea what you mean. Calculation of a volume of what? Which measured numbers? Your question, as it stands, is nonsense.
Which is greater 1500mL or 1.5L?
The two numbers, 1,500 mL and 1.5 L are the same amount, (=)........... :o
What electron could have quantum numbers n = 3, l = 0, ml = 0, ms = -?
A 3s electron
What electron could have quantum numbers n 2 l 1 ml 0 ms 1 2?
A 2p electron
What are the quantum numbers for the sevententh electron of Argon?
The quantum numbers for the seventeenth electron of Argon would be n=3 (principal quantum number), l=1 (azimuthal quantum number), ml=0 (magnetic quantum number), and ms= -1/2 (spin quantum number).
What could be a third quantum number of a 2p3 electron in phosphorus?
ml = -1
What electron could have quantum numbers n 3 l 0 ml 0 ms?
A 3s electron
What are the quantum numbers for the last electron in gold?
The last electron in gold is located in the 6s orbital. Therefore, the quantum numbers for this electron would be n=6 (principal quantum number), l=0 (azimuthal quantum number), ml=0 (magnetic quantum number), and ms=+1/2 (spin quantum number).
What are the quantum numbers for the last electron in copper?
The last electron in a copper atom has the quantum numbers n=3, l=2, ml=0, and ms=+1/2. The quantum numbers represent the energy level (n), sublevel (l), orbital orientation (ml), and electron spin (ms) of the electron, respectively.
What are allowable sets of quantum numbers?
The allowable sets of quantum numbers are n (principal quantum number), l (azimuthal quantum number), ml (magnetic quantum number), and ms (spin quantum number). n determines the energy level and size of an orbital, l determines the shape of an orbital, ml determines the orientation of an orbital in space, and ms determines the spin of an electron in an orbital. Each set of quantum numbers must follow specific rules based on the principles of quantum mechanics.
Which set of quantum numbers could correspond to one of the highest energy electrons in Zr?
The highest energy electron in Zirconium (Zr) corresponds to the 4th energy level (n=4) with an angular momentum quantum number of l=3 (d-orbital), a magnetic quantum number ml ranging from -3 to 3, and a spin quantum number of ms=+1/2. This set of quantum numbers specifies the 4d subshell in which the electron resides.
What are the Quantum numbers for phosphorus?
The quantum numbers for phosphorus are n = 3, l = 1, ml = -1, 0, 1, and ms = -1/2. The principal quantum number (n) indicates the energy level, the azimuthal quantum number (l) indicates the subshell and shape of the orbital, the magnetic quantum number (ml) indicates the orientation of the orbital, and the spin quantum number (ms) indicates the spin of the electron.
What is the set of numbers of quantum numbers?
Assuming you mean the set of quantum number describing the VALENCE electrons of aluminum, they would ben = 3l = 1ml = -1s = +1/2Of course, since Al has only 1 p electron, ml could also have been 0 or +1 and s could have been -1/2
What is the quantum numbers for a 6s orbital?
The quantum numbers for a 6s orbital are n=6, l=0, ml=0, and ms can be either +1/2 or -1/2. The principal quantum number (n) indicates the shell, the azimuthal quantum number (l) indicates the subshell, the magnetic quantum number (ml) indicates the orientation in space, and the spin quantum number (ms) indicates the spin of the electron.
