Consider the following generic chemical equation:
A+B - C + D
Reactant A contains 85.1 J of chemical energy.
Reactant B contains 87.9 J of chemical energy.
Product C contains 38.7 J of chemical energy. If
the reaction absorbs 104.3 J of chemical energy
as it proceeds, how much chemical energy must
product D contain? Explain your answer.

How does the principle of electromagnetism explain the interaction between earth’s magnetic field and the solar wind?

What type of energy do chemical bonds have? what type of energy is it converted to during chemical reactions? question 15 options: chemical bonds have kinetic energy, which is converted to potential energy during chemical reactions. chemical bonds have electric energy, which is converted to potential energy during chemical reactions. chemical bonds have heat energy, which is converted to kinetic energy during chemical reactions. chemical bonds have potential energy, which is converted to heat energy during chemical reactions.

We are hoping to create 5.72 grams of glucose. the plant was given 4.75 liters of co2 and 2.81 g of h20. which reactant was the limiting reagent? how much excess mass did we have of the other reactant?