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Noble gases differ from other elements in bonding behavior because they are generally unreactive and do not readily form chemical bonds with other elements. This is because noble gases have a full outer electron shell, making them stable and less likely to gain or lose electrons to form bonds.
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What are the two ways elements bond?
Elements , with the exception of the noble gases which are monoatomic, are either covalent (solids eg diamond, liquid, bromine, gases, e.g. oxygen and nitrogen ) or metals and therefore element's contain covalent or metallic bonds.
Why do real gases deviate from ideal behavior?
Real gases deviate from ideal behavior due to factors such as intermolecular forces, molecular volume, and pressure. These factors cause real gases to occupy more space and have interactions that differ from the assumptions of the ideal gas law.
What is the oxidation state in lone elements and atoms in gases?
The oxidation state of lone elements and atoms in gases is zero. This is because they are in their elemental form and are not involved in any chemical bonding that would require a transfer of electrons.
What is the most stable particles of ionic bonding?
The most stable particles in ionic bonding are typically noble gases, such as helium, neon, or argon. These gases have a full outer electron shell, making them very stable and unlikely to form bonds with other elements.
What elements are used to form compounds?
Just about all of them! The noble gases are very rarely combined into compounds, but even some of them (most often Xe) can be combined to form a compound (the other noble gases, Ne, He, Ar, and Kr almost never react to form a compound though).
Will all elements combine with other elements?
in nuclear fusion i assume it is theoretically possible to combine any elements but in terms of chemical bonding, no some elements ie noble gases are very nonreactive, though the heavier noble gases do form compounds with oxygen and fluorine.
What are the two ways elements bond?
Elements , with the exception of the noble gases which are monoatomic, are either covalent (solids eg diamond, liquid, bromine, gases, e.g. oxygen and nitrogen ) or metals and therefore element's contain covalent or metallic bonds.
Why do real gases deviate from ideal behavior?
Real gases deviate from ideal behavior due to factors such as intermolecular forces, molecular volume, and pressure. These factors cause real gases to occupy more space and have interactions that differ from the assumptions of the ideal gas law.
How do the gases differ from the other elements?
Noble gases differ because they obtain a full valence electrons of 8 on the outer shell. OCTET RULE: states that every element aspires to be a noble gas and have a full valence level.
What is the oxidation state in lone elements and atoms in gases?
The oxidation state of lone elements and atoms in gases is zero. This is because they are in their elemental form and are not involved in any chemical bonding that would require a transfer of electrons.
What is the most stable particles of ionic bonding?
The most stable particles in ionic bonding are typically noble gases, such as helium, neon, or argon. These gases have a full outer electron shell, making them very stable and unlikely to form bonds with other elements.
What elements are used to form compounds?
Just about all of them! The noble gases are very rarely combined into compounds, but even some of them (most often Xe) can be combined to form a compound (the other noble gases, Ne, He, Ar, and Kr almost never react to form a compound though).
In what ways do compounds differ from their component elements?
The properties of a compound differ from the properties of its component elements. For example, at room temperature, hydrogen and oxygen are odorless, colorless gases. Hydrogen gas is highly flammable, and oxygen gas supports combustion. They combine chemically to form water molecules. At room temperature, water is a liquid, and is not flammable and does not support combustion.
What evidence led Dalton to propose his atomic theory?
Dalton's atomic theory was based on his observations of chemical reactions and the Law of Multiple Proportions, which showed that elements combined in simple ratios. He also analyzed the behavior of gases and proposed that they were composed of individual particles. Additionally, Dalton's work on the behavior of gases led him to propose that atoms of different elements had different weights.
What do solids and gases have in common?
Solids and gases have a number of things in common. The main similarity between the two is that they can be converted into liquid state.
What do the elements in each family have in common The periodic table?
Elements in the same family or group on the periodic table share similar chemical properties due to their identical valence electron configurations. This similarity affects their reactivity, bonding behavior, and physical properties. For example, alkali metals (Group 1) are highly reactive and tend to form positive ions, while noble gases (Group 18) are largely inert due to their complete electron shells. Thus, elements within a family exhibit predictable trends in behavior and characteristics.
Can atoms of krypton exist independently?
Yes: Atoms of krypton almost always do exist independently of chemical bonding to any other atoms.
