It is IMPOSSIBLE to form elements of any kind or group other than by nuclear processes.
There is no special one for transition elements.
Yes, atoms of copper and iron can generally form stable bonds with transition elements. Copper and iron are both transition elements themselves and can form stable bonds with other transition elements. The stability of the bonds will depend on factors such as the electronegativity and bonding properties of the specific elements involved.
Transition Metals! ^-^ http://chemistry.about.com/library/blperiodictable.htm
Pd , Co are transition elements.
No
Supreheavy elements are not stable.
Yes, atoms of copper and iron can generally form stable bonds with transition elements. Copper and iron are both transition elements themselves and can form stable bonds with other transition elements. The stability of the bonds will depend on factors such as the electronegativity and bonding properties of the specific elements involved.
Sc and Zn are not classified as transition metals. They does not have stable different oxidation numbers.
Of course they are more stable, therefore they formed naturally.
Ionic
Group B elements are the elements between group 2A and group 3A in the periodic table. Note that it doesn't necessarily mean that Group B elements are transition metals because the definition of a transition metal is "a metal which forms one or more stable ions with an INCOMPLETELY-FILLED d-subshell". Because of this definition, Scandium, Zinc, and a few others are not classified as transition metals although they are Group B elements.
The octet rule does not apply to transition and inner transition metals and to the first for or five elements in the periodic table.
Transition Metals! ^-^ http://chemistry.about.com/library/blperiodictable.htm
all transition elements are metals
Pd , Co are transition elements.
Yes, lanthanide and Actinides are transition elements and they are specifically called inner transition elements.
Those elements are called transition elements
transition elements are not as reactive as alkali metals or alkaline earth metals.. this is so because of the valence electronic configurations. alkali metals have ns1 configurations which have easy chances of loosing electrons so as to gain the stable state. Attaining a stable state is the law of nature. hence to attain it they have to redily donate electron. this is not so easily possible for the transition elements..