Most are shiny.
Non metals have properties opposite those of the metals . The metalloids, or semimetals, have properties that are somewhat of a cross between metals and nonmetals.
Non- metals are brittle, non-sonorous and less dense. They are located on the right side in periodic table.
The elements on the periodic table are ordered from left to right as metals, metalloids, and nonmetals. The left side consists mostly of metals, which are typically shiny, malleable, and good conductors of heat and electricity. In the middle, we have metalloids, which possess properties of both metals and nonmetals. The right side contains nonmetals, which are generally poor conductors of heat and electricity and have varying physical properties.
D. location on the periodic table
The metals are normally found on the left of the Periodic Table, the non-metals on the right and the metalloids in between.
Non metals have properties opposite those of the metals . The metalloids, or semimetals, have properties that are somewhat of a cross between metals and nonmetals.
Nonmetals are generally poor conductor
according to their properties. metals, nonmetals, and metalloids
Generally nonmetals and metalloids.
Non- metals are brittle, non-sonorous and less dense. They are located on the right side in periodic table.
The Periodic Table (see link) gave great insight into the chemical properties of all the elements ... for it turns out that there is a pattern to it all. For predicting its chemical reactivity, generally you look at where it lies on the Periodic Table, which groups it with metals, semimetals, or nonmentals. Metals combine with nonmetals to form ionic compounds; nonmetals also combine with other nonmetals to form covalent compounds; and metals combine with other metals to form metal alloys (semimetals have intermediate properties). The element's location on the periodic table also defines its specific valence electron structure, and since atoms tend to react so that they have a full octet of valence electrons this will predict the specifics of its bonding behavior. For example, a metal that has only two valence electrons (like nickel) will tend to create a (+2) cation. A nonmetal that has four valence electrons (like carbon) will tend to form four (covalent) bonds.
D. location on the periodic table
The elements on the periodic table are ordered from left to right as metals, metalloids, and nonmetals. The left side consists mostly of metals, which are typically shiny, malleable, and good conductors of heat and electricity. In the middle, we have metalloids, which possess properties of both metals and nonmetals. The right side contains nonmetals, which are generally poor conductors of heat and electricity and have varying physical properties.
The density properties generally change as you go down the columns of the Periodic Table by increasing.
The nonmetals are located on the right side of the periodic table. Refer to the related links for a periodic table that indicates the nonmetals.
The metals are normally found on the left of the Periodic Table, the non-metals on the right and the metalloids in between.
The melting temperature properties generally change as you go from left to right in the periodic table by going down/decreasing.