How can be entropy of system or in surroundings be less than zero in any process?...

In most situations where heat flows between a system and its larger surroundings, the change in...

In most situations where heat flows between a system and its larger surroundings, the change in entropy for the system is: greater than the change in entropy for the surroundings less than the change in entropy for the surroundings equal to the change in entropy for the surroundings impossible to predict

a) During a hypothetical process, the entropy of a system increases by 105 J/K while the...

a) During a hypothetical process, the entropy of a system increases by 105 J/K while the entropy of the surroundings decreases by 95 J/K. Is the process spontaneous? Is the process reversible? b) What happens if the opposite process occurs, i.e. entropy of the system dcreases by 105 J/K and the entropy of the surroundings increases by 95 J/K?

For each process below, determine the change in entropy of the system. Indicate whether the changes...

For each process below, determine the change in entropy of the system. Indicate whether the changes in the entropy of the surroundings and of the universe will be negative or positive (5 pts each). (a)    One mole of ammonia gas decomposes to nitrogen and hydrogen gases. (b)    12 g of liquid water freezes.

For each case determine the change in entropy for the surroundings and the universe, when 1...

For each case determine the change in entropy for the surroundings and the universe, when 1 mole of a diatomic gas expands from its initial volume of 5 L and 31.5 ◦C to: CASE (a) a final volume of 25 L reversibly and isothermically. CASE (b) irreversibly and isothermically against an external pressure of 1 atm. CASE (c) a final volume of 25 L reversibly and adiabatically. Yes, it is zero, but you have to demonstrate it. CASE (d) irreversibly...

Which statements about entropy are true? 1. Entropy is a measure of disorder in a system....

Which statements about entropy are true? 1. Entropy is a measure of disorder in a system. 2. Entropy is a state function. 3. An increase in entropy is associated with an increase in the order of a system. 4.The minimal value of entropy is zero.

1) For which of the following processes does entropy decrease? A. H2(g) + Cl2(g)   →   2HCl(g)...

1) For which of the following processes does entropy decrease? A. H2(g) + Cl2(g)   →   2HCl(g) B. N2(g) + 3H2(g)   → 2NH3(g) C. Making amorphous glass from crystalline SiO2 (quartz) D. CH3OH(l) → CH3OH(aq) 2) Use the values provided in the table to calculate the standard free energy change for the following reaction at 298 K:   2H2O2(g)  → 2H2O(g) + O2(g)   Substance ∆Gf° (kJ/mol) at 298 K H2O(g) −228 H2O2(g) −105 A −666 kJ B +666 kJ C +246 kJ D −246...

We see that in the second law of thermodynamics, for any spontaneous process, the entropy of...

We see that in the second law of thermodynamics, for any spontaneous process, the entropy of the universe will increase. With a very generalized approach, please try to explain how one spontaneous chemical reaction may increase entropy through its interactions with the environment.

Imagine that the system you are studying has an entropy gauge that read ½ before a...

Imagine that the system you are studying has an entropy gauge that read ½ before a spontaneous process occurred and ¼ after the process occurred. Imagine also that the surroundings entropy gauge read ½ before the above process occurred and ¾ after the process occurred. Would such a scenario be consistent with the Laws of Thermodynamics? Hint: consider the 2nd Law of Thermodynamics. A) Yes, the above-described scenario is consistent with the Laws of Thermodynamics. B) No, the above-described scenario...

In a Carnot process, the initial heat of a system is 50 J, and 300 K....

In a Carnot process, the initial heat of a system is 50 J, and 300 K. The object then performs 15 J of work on the surroundings. What is the entropy of this system?

Living organisms are highly structured, and therefore much lower in entropy than the substances from which...

Living organisms are highly structured, and therefore much lower in entropy than the substances from which they grow. How is it possible that these (local) entropy decreases can occur? a) The Earth re-emits as much energy as it absorbs while keeping the same temperature, so the change in heat is zero, making the change in entropy of the Earth zero. b) The entropy of one part of the universe can decrease provided the total entropy of the universe increases. Energy...