Yes, Kr (krypton) is a noble gas that is classified as diamagnetic, meaning it is weakly repelled by magnetic fields. This is due to its filled valence electron shell, which provides stability and no unpaired electrons to align with an external magnetic field.
air is paramagnetic and this caused by the presence of O2 which is paramagnetic as it has 2 unpaired electrons.
Natural isotopes of krypton are: Kr-78, Kr-80, Kr-81, Kr-82, Kr-83, Kr-84, Kr-86.
Isotopes of krypton are: Kr-78, Kr-80 to Kr-84, Kr-86. Kr-83 was used in magnetic resonance imaging.
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.
The types of material for paramagnetic include aluminum, platinum among others.
No, argon is not paramagnetic.
Yes, AL2 is paramagnetic.
B2 is paramagnetic.
Vanadium is paramagnetic.
Natural isotopes of krypton are: Kr-78, Kr-80, Kr-81, Kr-82, Kr-83, Kr-84, Kr-86.
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.
Natural isotopes of krypton are: Kr-78, Kr-80, Kr-81, Kr-82, Kr-83, Kr-84, Kr-86.
Coins: 50 ore 1 krone (kr) = 100 ore 5 kr 10 kr 20 kr Bills: 50 kr 100 kr 200 kr 500 kr 1000 kr
KR
The mass of 1 mole of an element is its atomic weight on the Periodic Table in grams.1g = 1000mgThe mass of 1 mole of Kr = 83.80g KrConvert mg Kr to g Kr.398mg Kr x (1g/1000mg) = 0.398g KrConvert g Kr to mol Kr.0.398g Kr x (1mol Kr/83.80g Kr) = 4.75x10-3mol Kr