An exothermic process release energy; but the total energy remain constant.
No.
No
Endothermic. Assuming the energy absorbed is heat. Exothermic reactions release heat, such as the oxidation of hydrogen to create water.
Two different answers:Yes, an exothermic reaction releases energy into its surroundings No, its products do NOT have more energy than the reactant(s)
Exothermic Reaction
More technically, the energy is released.
A reaction that releases energy is exothermic.
Endothermic. Assuming the energy absorbed is heat. Exothermic reactions release heat, such as the oxidation of hydrogen to create water.
Two different answers:Yes, an exothermic reaction releases energy into its surroundings No, its products do NOT have more energy than the reactant(s)
Its exothermic, it produces more energy than needed to switch them.
... is an exothermic reaction (opposite of 'endothermic')
An endothermic reaction contains more chemical energy.
Condensation is generally exothermic in that the material doing the condensing will be giving up thermal energy to do so. And giving up heat energy is the exit of thermal energy, hence the name exothermic. The atoms or molecules of this consate give up some of their kinetic energy, their energy of atomic or molecular motion, that thermal energy, to condense.
Exothermic Reaction
The lattice energy of potassium bromide is more exothermic than the lattice energy of rubidium iodide because lattice energy is inversely proportional to atomic radius.
Yes, fusion is exothermic until nickel & iron are produced.
Exothermic. Glucose is one of the major source of energy of the body and can only act as an energy source because its breakdown into CO2 is an exothermic reaction.
Endothermic chemical reactions absorb more energy than they release, while exothermic chemical reactions release more energy than they absorb.
More technically, the energy is released.