se the reaction to complete the sentence. 2CO + O2 → 2CO2 Carbon monoxide and oxygen combine to produce carbon dioxide. The total bond energy of the products is 1,472 kJ. The bond energy of each carbon-oxygen double bond in carbon dioxide is _____.

Question

se the reaction to complete the sentence. 2CO + O2 → 2CO2 Carbon monoxide and oxygen combine to produce carbon dioxide. The total bond energy of the products is 1,472 kJ. The bond energy of each carbon-oxygen double bond in carbon dioxide is _____.

2,944 kJ 2,944 kJ 736 kJ 736 kJ 368 kJ 368 kJ 1,472 kJ

Answer 1

The bond energy of each carbon-oxygen double bond in carbon dioxide is 736 kJ.

Answer 2

To find the bond energy of each carbon-oxygen double bond in carbon dioxide, we divide the total bond energy of the products (1,472 kJ) by the number of carbon-oxygen double bonds in carbon dioxide (2).

1,472 kJ / 2 = 736 kJ

Therefore, the bond energy of each carbon-oxygen double bond in carbon dioxide is 736 kJ.

Answer 3

To determine the bond energy of each carbon-oxygen double bond in carbon dioxide, we need to first calculate the total bond energy of the products, which is given as 1,472 kJ.

Since we have two carbon-oxygen double bonds in carbon dioxide (CO2), we can divide the total bond energy by the number of bonds to find the bond energy per bond.

Thus, the bond energy of each carbon-oxygen double bond in carbon dioxide is calculated as:

1,472 kJ / 2 bonds = 736 kJ

Therefore, the correct answer is 736 kJ.