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The reason for this lies in the bond dissociation enthalpy of Nitrogen molecule,
The two atoms are bonded by a triple bond whose enthalpy is 941.4 KJ mol-1 .
So the two atoms are not very free to bond with others
Not only this, the higher tendency of P to form catenation is its bigger size than N
which makes the bond cleavage with other atoms easy.
What else can I help you with?
Whichamong nitrogen and phosphorous have more catenation power and why?
phosphorous shows the property of catenation to a very large extent due to the ability to form p(pi)-p(pi) bonding.
Why does nitrogen show catenation properties less than phosphorus?
This is a difficult question. What has to be addressed is the fact that in group 14, carbon is excellent at forming long chains, which contrasts to the heavier elements in the group. The ability drops to form chains decreases as you go down the group. With group 15 concatenation of nitrogen seem to limit at 3 in HN3. Phosphorus catenates in a comparable way to silicon. What is different? Well N2 is amazingly stable- its triple bond is approximately 3X the strength of a N-N single bond. In simple terms this means that whenever you try to form a long chain catenated nitrogen compound, nitrogen gas is just too stable and the molecule falls apart. HN3 is very unstable and is explosive.
Would nitrogen and phosphorus from a metallic bond?
No, metallic bonds only form between the atoms of a metal. Nitrogen and phosphorous are both nonmetals, and would be expected to form a covalent bond. However, I do not know if nitrogen and phosphorus bond with one another, since they are in the same group.
What type of bond exists between nitrogen and phosphorus?
A covalent bond typically exists between nitrogen and phosphorus. Both elements are nonmetals and commonly form covalent compounds due to their electronegativity.
Why does the reactivity of nitrogen differ from phosphorus?
Nitrogen is chemically less reactive. This is because of the high stability of its molecule, N2. In N2, the two nitrogen atoms form a triple bond. This triple bond has very high bond strength, which is very difficult to break. It is because of nitrogen's small size that it is able to form pπ−pπ bonds with itself. This property is not exhibited by atoms such as phosphorus. Thus, phosphorus is more reactive than nitrogen.
Whichamong nitrogen and phosphorous have more catenation power and why?
phosphorous shows the property of catenation to a very large extent due to the ability to form p(pi)-p(pi) bonding.
Why does nitrogen show catenation properties less than phosphorus?
This is a difficult question. What has to be addressed is the fact that in group 14, carbon is excellent at forming long chains, which contrasts to the heavier elements in the group. The ability drops to form chains decreases as you go down the group. With group 15 concatenation of nitrogen seem to limit at 3 in HN3. Phosphorus catenates in a comparable way to silicon. What is different? Well N2 is amazingly stable- its triple bond is approximately 3X the strength of a N-N single bond. In simple terms this means that whenever you try to form a long chain catenated nitrogen compound, nitrogen gas is just too stable and the molecule falls apart. HN3 is very unstable and is explosive.
Would nitrogen and phosphorus form a covalent bond?
No, nitrogen and phosphorus would not typically form a covalent bond with each other. Both elements can form covalent bonds, but they are more likely to form bonds with other elements due to differences in electronegativity and chemical properties.
Are the properties of nitrogen more similar to the properties of neon or the properties of phosphorus?
The properties of nitrogen are more similar to the properties of phosphorus. Nitrogen and phosphorus are both nonmetals with similar chemical reactivities and tendencies to form covalent bonds. Neon, on the other hand, is a noble gas with very different properties compared to nitrogen.
What type of bond will nitrogen form with phosphorus?
Nitrogen typically forms a covalent bond with phosphorus. This involves the sharing of electrons between the two atoms to achieve a stable electron configuration. This type of bond is common in compounds like ammonia and phosphorus pentachloride.
Would nitrogen and phosphorus from a metallic bond?
No, metallic bonds only form between the atoms of a metal. Nitrogen and phosphorous are both nonmetals, and would be expected to form a covalent bond. However, I do not know if nitrogen and phosphorus bond with one another, since they are in the same group.
What type of bond exists between nitrogen and phosphorus?
A covalent bond typically exists between nitrogen and phosphorus. Both elements are nonmetals and commonly form covalent compounds due to their electronegativity.
Why does the reactivity of nitrogen differ from phosphorus?
Nitrogen is chemically less reactive. This is because of the high stability of its molecule, N2. In N2, the two nitrogen atoms form a triple bond. This triple bond has very high bond strength, which is very difficult to break. It is because of nitrogen's small size that it is able to form pπ−pπ bonds with itself. This property is not exhibited by atoms such as phosphorus. Thus, phosphorus is more reactive than nitrogen.
What is catenation of Pb?
Lead (Pb) is not known for its catenation abilities. Catenation refers to the ability of an element to form chains or rings with atoms of the same element. Lead typically does not exhibit strong catenation tendencies due to its large atomic size and low electronegativity.
What is the property of an atom to form a bond with itself called?
Catenation
What type of bond would form between two atoms of phosphorus?
Phosphorus typically forms covalent bonds with other atoms, including other phosphorus atoms. This is because phosphorus has a strong tendency to share electrons to achieve a stable electron configuration.
What is one way that the phosphorus cycle differs from the carbon and nitrogen cycles?
Reservoir of P is in sediments while others 2 are gaseous .
