Yes, phosphorus is paramagnetic. This means that it contains unpaired electrons in its outer shell, which causes it to be attracted to a magnetic field.
Yes, AL2 is paramagnetic.
B2 is paramagnetic.
Vanadium is paramagnetic.
Vanadium (V3) is paramagnetic.
It is paramagnetic because it has unpaired electrons.
Yes, phosphorus is paramagnetic. This is because it has unpaired electrons in its outer shell, which results in a net magnetic moment.
Arsenic is paramagnetic because the electron configuration is {Ar}4s^2,3d^10,4p^3. Due to the unpaired electron at the end (4p^*3*) the atom in ground state is paramagnetic. **OR Arsenic would be paramagnetic since the 4 p orbitals each contain one electron with parallel spin. These three unpaired electrons give arsenic its paramagnetic property.
phosphorus (P) as it has three unpaired electrons.
No, argon is not paramagnetic.
Yes, AL2 is paramagnetic.
B2 is paramagnetic.
Vanadium is paramagnetic.
be2 is paramagnetic
Vanadium (V3) is paramagnetic.
air is paramagnetic and this caused by the presence of O2 which is paramagnetic as it has 2 unpaired electrons.
Cn- is paramagnetic. Cn is found in the Periodic Table and is known as Copernicium. A compound that is paramagnetic is one that will have a lone electron and Cn qualifies.
The element with atomic number 73 is tantalum (Ta), which is paramagnetic. Paramagnetic elements have unpaired electrons that align with a magnetic field, causing them to be weakly attracted to the field.