Endothermic. Assuming the energy absorbed is heat.
Exothermic reactions release heat, such as the oxidation of hydrogen to create water.
The energy is conserved in a chemical reaction.
A reaction is endergonic when it requires a net input of energy; if the products contain more energy than the reactants. So, no an endergonic reaction takes in energy. An exergonic reaction releases energy. In an exergonic reaction, the reactants contain more energy than the products.
Exergonic vs. Endergonic reactions: exergonic release more energy than they absorb. Endergonic reactions absorb more energy than they release.Exergonic reactions release energy while endergonic reactions absorb energy.
Two different answers:Yes, an exothermic reaction releases energy into its surroundings No, its products do NOT have more energy than the reactant(s)
Yes, a stronger bond requires more energy to break, and also releases more energy when it is made. In a chemical reaction, if you are breaking strong bonds, and only making weak ones, the reaction will require a lot of energy (endothermic). If instead you are breaking weak bonds and making very strong ones in the products, the reaction will release energy (exothermic).
The energy is conserved in a chemical reaction.
A reaction is endergonic when it requires a net input of energy; if the products contain more energy than the reactants. So, no an endergonic reaction takes in energy. An exergonic reaction releases energy. In an exergonic reaction, the reactants contain more energy than the products.
As opposed to an EX [as in expel] -ergonic chemical reaction, endergonic reactions absorb energy.
Combustion, burning, releases more heat that is taken in to start the reaction.
Kinetic energy has more energy than products.
It's an endothermic reaction. When more energy is absorbed than released, it has to be absorbed from surroundings. That means the surroundings lose heat as energy is absorbed from them to complete the reaction. This translates to a cooler feeling around the reaction. If you're holding a beaker with an endothermic reaction going on inside it, your hand will feel cool because the reaction is actually absorbing energy from you. An example of an endothermic reaction is combining vinegar and baking soda.
When something is cool, it tries to absorb energy from it's surroundings. When something is cooled off, it releases energy during that cooling process.
Exergonic vs. Endergonic reactions: exergonic release more energy than they absorb. Endergonic reactions absorb more energy than they release.Exergonic reactions release energy while endergonic reactions absorb energy.
Two different answers:Yes, an exothermic reaction releases energy into its surroundings No, its products do NOT have more energy than the reactant(s)
Endothermic means more energy goes into a reaction than the reaction gives off. It tends to absorb heat (feel cool).
The amount of energy released in a particle-antiparticle reaction is equal to the total mass, multiplied by c2. Therefore, you'll get more energy if the particles have more mass. For example, a proton-antiproton reaction will release about 1800 times more energy than an electro-positron reaction, simply because the proton has about 1800 more mass.
Talikng releases more energy because cars release carbon monoxide.