count and list the new bonds formed in Hydrazine burn in oxygen
To determine the new bonds formed in the combustion of hydrazine (N2H4) in oxygen (O2), we need to understand the chemical reaction that takes place.
The balanced chemical equation for the combustion of hydrazine can be written as:
N2H4 + O2 -> N2 + 2H2O
In this reaction, hydrazine combines with oxygen gas to produce nitrogen gas and water.
Now, let's analyze the new bonds that are formed:
1. N2H4: Hydrazine is composed of two nitrogen atoms and four hydrogen atoms, connected by covalent bonds.
2. O2: Oxygen gas consists of two oxygen atoms, joined by a double covalent bond.
3. N2: Nitrogen gas is formed as a product in this reaction, and it consists of two nitrogen atoms bonded by a strong triple covalent bond.
4. H2O: Water is produced as a product in this reaction, and it consists of two hydrogen atoms bonded to one oxygen atom through covalent bonds.
To summarize, the new bonds formed during the combustion of hydrazine in oxygen are:
- The double covalent bond in O2 remains intact.
- The triple covalent bond in N2 is formed.
- The covalent bonds between hydrogen and oxygen atoms in H2O are formed.
Note that when counting new bonds, we consider only the bonds that are formed or broken during the chemical reaction. The existing bonds in the reactants (N2H4 and O2) remain unchanged.
See this.https://www.jiskha.com/questions/1090624/hydrazine-n2h4-burns-in-oxygen-a-what-are-their-product-in-chemical-equation
The reaction is
H2NNH2 + O2 ==> N2 + H2O