Which type of bonding is present in a sample of an element that is malleable?

Non metallic elements show properties of non-malleability,non-lustrous and poor conduction of heat and electricity (Except Graphite).

The average isotopic mass is the weighted average of the mass of the individual . Because the quoted average, $63.6$ $"amu"$, is closer to $""^63A$ than $""^65A$, the $""^63A$...

Malleability, the ability of a material to be hammered out into a sheet (from the Latin, $"malleus, hammer"$, is a fundamental property of metals. Solid non-metals, e.g. diamond, sulfur, iodine,...

$"Metallic bonding"$ results from the close packing of metal atoms, such that the atoms contribute a few of their to the overall lattice. These are delocalized, and not associated with...

Apparently none. Malleability is a property of metals, a result of the between atoms of the metal. I suspect it is closely related to ductility, the ability of a substance...

While usually only ionic and metallic bonds form solids, occasionally covalent bonds will form solids called network covalent bonds. Take carbon for example. Carbon actually can form this type of...

In a metallic bond, each metal atom is conceived to donate one or two or more to the bulk lattice. The result is commonly described as $"metallic bonding"$, $"positive ions...

Since, $5s$ orbital is fully filled, so the element $X$ lies in $5^(th)$ principal shell, i.e. it lies in the $5^(th)$ period. Now, since the $4d$ subshell is partially filled,...

$%A$ $=$ $(34.5*g)/(34.5*g+18.2*g+2.6*g)xx100%=62.3%$ $%B$ $=$ $(18.2*g)/(34.5*g+18.2*g+2.6*g)xx100%=33.0%$ $%C$ $=$ $(2.6*g)/(34.5*g+18.2*g+2.6*g)xx100%=4.70%$ That is $%" element"$ $=$ $"Mass of element"/"Mass of compound"xx100%$ $"Mass of compound"$ is clearly the SUM of the constituent ....

If a solid is malleable it means, it can be converted into thin sheet without breaking. For example- most metals are malleable.