Vapors always have more entropy than liquids of the same substance at the same temperature, because the number of energy states accessible to molecules in the vapor phase is much greater than in the liquid phase.
Fluorine has greater electron affinity than bromine, or any other element.
Bromine, its as simple as its more to the RHS of the periodic table
No.
Heat (in water) is random molecular motion, so greater heat equals greater disorder, hence more entropy.
In a nutshell, yes. The water will go from a higher concentration to a lower concentration to increase the entropy of the lower concentration area. The increase in entropy of the lower concentration area would be greater than the loss of entropy of the higher concentration giving you a NET increase in total entropy.
A Carnot cycle is a sample of something that has greater entropy. The word entropy can e defined s meaning reverse system. The concept of entropy was started with the work of Lazare Carnot.
The vapoor stae of an elemnt has the greates entropy. Entropy is a state function in thermodynamics, and is sometime termed as measure of disorder. Another interpretation is that it is a measure of the spread of energy across micro-states. There ae more micro-states in a vapor, due to the quantization of rotation and vibration.
gas
Fluorine has greater electron affinity than bromine, or any other element.
Two natural isotopes of bromine are known:- bromine-79: 50,69 %- bromine-81: 49,31 %
Bromine, its as simple as its more to the RHS of the periodic table
No.
Heat (in water) is random molecular motion, so greater heat equals greater disorder, hence more entropy.
In a nutshell, yes. The water will go from a higher concentration to a lower concentration to increase the entropy of the lower concentration area. The increase in entropy of the lower concentration area would be greater than the loss of entropy of the higher concentration giving you a NET increase in total entropy.
False
Entropy is the measure of disorderness. Hot water --> more energy --> less stable --> more disorderness (than Cold water). Therefore, Entropy of Hot water is greater than that of Cold water.
An iodine atom has one more principal energy level than a bromine atom. Therefore the radius of an iodine atom is greater than the latter.