OQ# has to do with angular momentum. MQ# has to do with the particle behaving like a little bar magnet, (really just a moving charge -> creating a magnetic field).
The third quantum number is the magnetic quantum number, which describes the orientation of the orbital in space. For a 2p orbital, the possible values of the magnetic quantum number range from -1 to 1, representing the three different orientations of the p orbital in space. In the case of 2p3, the magnetic quantum number is 1.
Magnetic quantum number (m_l) is needed to determine the orientation of an orbital.
Magnetic quantum number (m_l) is needed to determine the orientation of an orbital.
The third quantum number, known as the magnetic quantum number (m_l), describes the orientation of the orbital in which the electron resides. For the 2s orbital, which is spherical, the magnetic quantum number can only be 0. Therefore, for the 2s¹ electron in aluminum, the third quantum number (m_l) is 0.
The third quantum number, known as the magnetic quantum number (m_l), describes the orientation of the orbital. For a 3s electron, the principal quantum number (n) is 3, and the azimuthal quantum number (l) for an s orbital is 0. Therefore, the magnetic quantum number for a 3s electron is m_l = 0.
The px orbital has a magnetic quantum number value of -1, and the py orbital has a magnetic quantum number value of 0.
The third quantum number is the magnetic quantum number, which describes the orientation of the orbital in space. For a 2p orbital, the possible values of the magnetic quantum number range from -1 to 1, representing the three different orientations of the p orbital in space. In the case of 2p3, the magnetic quantum number is 1.
To determine the orientation of an orbital, you would need the quantum numbers associated with the orbital: the principal quantum number (n), the azimuthal quantum number (l), and the magnetic quantum number (m). These quantum numbers define the shape, orientation, and spatial orientation of the orbital within an atom.
The magnetic quantum number determines the orientation of an electron's orbital within an atom.
The Specific orbital the electron is in
The magnetic quantum number doesn't show the number of electrons.It show the orbital's orientation.Every orbital posses not more than 2 electrons.But You can't say what is their number (0, 1 or 2), knowing only the magnetic quantum number.
Magnetic quantum number (m_l) is needed to determine the orientation of an orbital.
The third quantum number is the magnetic quantum number, also known as the quantum number that specifies the orientation of an orbital in space. For a 3s orbital, the possible values of the magnetic quantum number range from -l to +l, where l is the azimuthal quantum number, which is 0 for an s orbital. Therefore, the third quantum number for a 3s2 electron in phosphorus is 0.
Four quantum numbers are required to completely specify a single atomic orbital: principal quantum number (n), azimuthal quantum number (l), magnetic quantum number (m), and spin quantum number (s). These numbers describe the size, shape, orientation, and spin of the atomic orbital, respectively.
Magnetic quantum number (m_l) is needed to determine the orientation of an orbital.
The third quantum number, known as the magnetic quantum number (m_l), describes the orientation of the orbital in which the electron resides. For the 2s orbital, which is spherical, the magnetic quantum number can only be 0. Therefore, for the 2s¹ electron in aluminum, the third quantum number (m_l) is 0.
The third quantum number, known as the magnetic quantum number (m_l), describes the orientation of the orbital. For a 3s electron, the principal quantum number (n) is 3, and the azimuthal quantum number (l) for an s orbital is 0. Therefore, the magnetic quantum number for a 3s electron is m_l = 0.