Transition Metals! ^-^ http://chemistry.about.com/library/blperiodictable.htm
The transition metals are known for their variable oxidation states, forming colorful compounds and acting as catalysts. Some transition metals do not conform to the properties of other metals due to their unique electron configurations and bonding characteristics. This group includes elements like mercury, which behaves like a transition metal but also exhibits characteristics of the post-transition metals.
There are 8 transition metals. Elements from V to Cu belong to this.
The elements in groups 3 through 12 are known as transition metals. Transition metals have many useful properties, such as malleability, ductility, electrical conductivity, and the ability to form colorful compounds. They are often used in industrial applications, electronics, and jewelry due to their unique characteristics.
One property of transition metals is that all elements and compounds in transition metals act as a catalyst ( speeds up chemical reactions. )xcool77
Elements in groups 3 through 12 are called transition metals. They are known for their ability to form multiple oxidation states and for their catalytic properties, making them important in various industrial processes and applications.
Group 3-12 contains transition metals, which are elements that have partially filled d or f electron shells. These metals have characteristic properties such as high melting points, ductility, and the ability to form colored compounds. Some commonly known transition metals in this group include iron, copper, and zinc.
The groups from 3 to 12 are called transitional metals because the last two shells of the elements included in these groups are incompletely filled. They are also included in d-block.Groups 3 through 12 are called the transition metals or the d-block.
Transition Metals! ^-^ http://chemistry.about.com/library/blperiodictable.htm
Transition state metals include a wide variety of metals; they include iron, gold, and Mercury which all have strikingly different properties (hard, soft, and liquid, for example). Nonetheless, a comparison can be made between the transition state metals and the alkali and alkaline earth metals; transition state metals are not as chemically active (some transition state metals are actually inert, such as platinum).
The physical properties of transition metals are determined by their electron configurations. Most transition metals are hard solids with relatively high melting and boiling points. Differences in properties among transition metals are based on the ability of unpaired d electrons to move into the valence level. The more unpaired electrons in the d sublevel, the greater the hardness and the higher the melting and boiling points.
Transition metals are placed in groups 3 to 12.
Groups 1, 2, and 13 are not considered transition elements as they do not exhibit the typical properties of transition metals such as multiple oxidation states and colored compounds.
Transition metals are found in the center block of the periodic table, specifically in groups 3-12. They are known for their ability to transition between different oxidation states, which gives them their name. Transition metals have unique properties such as forming colorful compounds and acting as catalysts in chemical reactions.
The transition metals are known for their variable oxidation states, forming colorful compounds and acting as catalysts. Some transition metals do not conform to the properties of other metals due to their unique electron configurations and bonding characteristics. This group includes elements like mercury, which behaves like a transition metal but also exhibits characteristics of the post-transition metals.
Transition metals are found in groups 3 to 12 on the periodic table. They are known for their variable oxidation states and ability to form colorful compounds. These elements often exhibit metallic properties such as conductivity and malleability.
There are 38 transition metals in the periodic table, located in groups 3 to 12. These elements have properties that include multiple oxidation states and the ability to form complex ions.