exo
Heat is required to solid for melting and to liquid for evaporation so these are endothermic processes.
Exo- means out Endo- means in. In an Exothermic reaction thermal energy is released (goes out) and in an Endothermic reaction Thermal energy is taken up, transferring into chemical energy (goes in). So, to answer your question, no, the temperature does not go up in both an exothermic and an endothermic reaction.
Side reactions would be the reaction of cyclopentadiene with itself (dimerization) into dicyclopentadiene, as well as the formation of the exo-product along with the usual endo-product (cis-norbornene-5,6-endo-dicarboxylic anhydride).
Endothermic reactions absorb heat from their surroundings and feel cold, whereas exothermic reactions release heat into their surroundings and can feel warm. The sensation of freezing is typically associated with endothermic processes because they absorb heat during the reaction.
Exothermic because the heat of formation is -566. Exo- is negative and Endo- is positive.
The opposite of exo- is endo-.
if u mean skeleton then exo
No! It has an exo skeleton
Endoskeleton
Exo- is the prefix opposite to endo-, as in exoskeleton and endoskeleton.
In a Diels-Alder reaction, endo products are formed when the diene and dienophile approach each other in a way that allows the newly forming bonds to be oriented towards the larger substituents on the dienophile. This results in the more stable endo product being favored over the exo product.
They're invertebrates. They have no skeletal structure at all
Humans and fish have endo skeletons and grasshoppers have exoskeletons (thats why you hear a crack if they are stepped on).
substances move. endo folds in , and exo exits
There's 3 : inner, outer, & middle. (endo - exo - meso)
It is endoskeleton. Seahorses have an interior skeleton.
Reactions are described by this equation: GD = HD - TDS where D = delta for change in values. GD < 0 spontaneous HD < 0 exothermic ; HD > 0 endothermic The first equation is Gibbs free energy. When G is negative, the reaction is spontaneous. In contrast, a positive number G is non spontaneous. The interesting thing is that spontaneous reactions can be EITHER exothermic and endothermic. Lets look at this: lets assume HD has a value of 100. This means TDS would have to be bigger than 100 in order to make GD a negative number. An endothermic reaction which has a positive H can still be exothermic. Here's another way to pose your question: Is an exothermic reaction spontaneous? Always. Is an endothermic reaction spontaneous? This can be either.