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What are metals on the periodic table and how do their properties differ from nonmetals and metalloids?
Metals on the Periodic Table are elements that are typically shiny, malleable, and good conductors of heat and electricity. Their properties differ from nonmetals and metalloids in that metals tend to be more ductile, have higher melting and boiling points, and are more reactive. Nonmetals, on the other hand, are typically brittle, poor conductors of heat and electricity, and have lower melting and boiling points. Metalloids have properties that are intermediate between metals and nonmetals.
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How does the location of semiconductors on the periodic table differ from the locations of other element families?
Semiconductors are located in groups 13-16 of the periodic table, which is different from the location of other element families like metals and nonmetals. Semiconductors have an intermediate conductivity compared to metals and nonmetals, making them important for electronics. Their position on the periodic table gives them unique properties related to their electronic structure and bonding abilities.
What are the differences between the elements?
Each element has an atom that has different amounts of protons, neutrons, and electrons. This is the case for the element's atomic number and atomic mass. They are arranged by their differences on the periodic table of the elements. Most elements are metals. The three categories for the elements are metals, nonmetals and metalloids. ----
How does fluorine differ from iodine in the periodical table?
Fluorine is located to the left of iodine in the periodic table. Fluorine is a highly reactive nonmetal, while iodine is a less reactive nonmetal. Their chemical properties and reactivities differ due to their electron configurations and atomic sizes.
Do the elements in a group of priodic table have the similar chemical and physical properties?
The elements in a group have the similar chemical properties dueto presence of same no of electrons in their outermost shell but they differ physically because physical properties are related to their atomic sizes from top to bottom in a group atomic size increases so their physical properties also differ.
5. How do isotopes differ from one another and from the element atoms on the periodic table?
Isotopes of an element have the same number of protons but different numbers of neutrons. This results in variations in atomic mass for isotopes. The element atoms on the periodic table represent the average mass of all its naturally occurring isotopes.
Groups 14,15 and 16 on the periodic table contain metals, nonmetals and metalloids. How are the elements in these groups alike and how are they different?
the number of atoms in these elements differ as well as the type of group they are in, what they all have in common is that they all consist of electrons and neutrons
How does the location of semiconductors on the periodic table differ from the locations of other element families?
Semiconductors are located in groups 13-16 of the periodic table, which is different from the location of other element families like metals and nonmetals. Semiconductors have an intermediate conductivity compared to metals and nonmetals, making them important for electronics. Their position on the periodic table gives them unique properties related to their electronic structure and bonding abilities.
How do metalloids differ from metals?
they have different building blocks.
What are the differences between the elements?
Each element has an atom that has different amounts of protons, neutrons, and electrons. This is the case for the element's atomic number and atomic mass. They are arranged by their differences on the periodic table of the elements. Most elements are metals. The three categories for the elements are metals, nonmetals and metalloids. ----
How do groups and periods on the periodic table differ?
Groups are vertical and contain chemical elements with similar properties; periods are horizontal.
How is a metaloid like a metal how is it different from a metal?
Metalloids share some properties with metals, such as conductivity and luster, allowing them to be useful in electronics and other applications. However, they differ from metals in that they are typically more brittle and can act as semiconductors, meaning they can conduct electricity better than non-metals but not as well as metals. Additionally, metalloids can have varied chemical properties, making them more similar to non-metals in certain reactions.
How is the table of elements you prepared similar to the modern periodic table.how id different?
The table of elements I prepared is similar to the modern periodic table in that it organizes elements based on their atomic number and groups them according to similar chemical properties. However, it may differ in how it categorizes or groups certain elements, potentially lacking the more refined classifications of metalloids or noble gases found in the modern table. Additionally, my table might not reflect the most current understanding of isotopes or electron configurations. Overall, while following the foundational layout of the periodic table, it may not incorporate all the advancements in elemental classification.
Do oxygen nitrogen carbon boron have similar physical and chemical properties?
Oxygen, nitrogen, carbon, and boron differ in their physical and chemical properties. Oxygen and nitrogen are nonmetals, while carbon can exist in different forms (such as graphite and diamond). Boron is a metalloid. Each element has distinct atomic properties that lead to differences in behavior and reactivity.
How does fluorine differ from iodine in the periodical table?
Fluorine is located to the left of iodine in the periodic table. Fluorine is a highly reactive nonmetal, while iodine is a less reactive nonmetal. Their chemical properties and reactivities differ due to their electron configurations and atomic sizes.
How does combining elements into compounds affect their properties?
The properties of the compound will differ from the properties of the elements of which it is made.
Does smoke and gas differ in their properties?
yes
Do the elements in a group of priodic table have the similar chemical and physical properties?
The elements in a group have the similar chemical properties dueto presence of same no of electrons in their outermost shell but they differ physically because physical properties are related to their atomic sizes from top to bottom in a group atomic size increases so their physical properties also differ.
