yes. no der.
The most malleable elements are the metals gold (number one) and aluminium.
out of the 118 elements discovered so far, most of them are metals
Group 1 Elements (elements in the first group [column]) are classed as Alkali Metals. Group 2 Elements (elements in the second group [column]) are classed as Alkaline Earth Metals. All elements not in a representative group are classed as Transition Metals. Group 3 Elements (elements in the third full group [coulumn]) are classed as Earth Metals
Metals and non-metals.
The alkaline earth metals belong to group 2A elements. The alkali metals belong to group 1A elements. The halogens belong to group 7A elements. The noble gases belong to group 8A elements.
"metals"
Most of the elements in the periodic table of elements are metals. Also, most of them are made by nature. Elements with the atomic number of 1-91 are made by nature. Elements with the atomic number of 92-118 are man-made.
Basically the metals. Note that a large number of the elements are metals.
Yes. For the elements in a given period, alkali metals have the largest radii.
About 75 metals.
The atomic radii of members of the Group 1A (Alkali metals), increases down the group. Therefore Francium has the largest atomic radius of the Alkali metals. However Fr has no stable isotopes, thus is not naturally occurring. So Cs-133 is the largest you can find.
There are 17 nonmetals and only 6 metalloids.
Alot of them are. About 88. All of the elements left of the metaloids are metals.
The most malleable elements are the metals gold (number one) and aluminium.
because of the massive amounts of metals and the not-so-effecient matter of small metaloids, certainley metals are the most high numbered, concluding that the metaloids are the least in numbers. You can figure this out by looking at the table in your 7th grade Chemical Bonding Book.
Transition metals
Every element is composed of atoms, all with the same number of protons. The elements are distinguished by the unique number of protons in each of the nuclei of its atoms.