Ch 20 Part 1, Ch 20 Thermodynamics

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Calculate the standard entropy change for the following reaction at 25oC. Use the values provided in the table below. 2CO (g) + O2 (g) → 2CO2 (g)

-173.6 J/mol⋅K

Which of the following statements correctly describe the general trends in standard entropy? Select all that apply.

-For two monatomic species, the one with the larger molar mass will have a higher standard entropy. -For elements with two allotropic forms, the one that is more mobile will have a greater value for standard entropy.

Match each symbol in the equation S = k ln W correctly with its meaning.

-S: entropy -k: constant -ln: natural logarithm -W: number of microstates

examples of changes that would result in an increase in entropy

-an icecube melts at 273K (solid to liquid) -a crystal of sodium chloride is heated from 275K to 290K (increasing temperature) -a tire is punctured releasing the gas trapped inside or opening a stopcock with a gas trapped inside (increasing the volume increases the number of translational energy levels the particles can occupy as they move from one location to another) -mixing a pure solid and pure liquid to form a solution

Match each type of chemical reaction with the energy and entropy changes it will cause in the surroundings. Instructions

-endothermic reaction: heat absorbed from surroundings -exothermic: heat is released to the surroundings -entropy of surrounding increases: exothermic -entropy of surrounding decreases: endothermic

examples of factors that increase the likelihood of a reaction will be spontaneous

-energy is released in the form of heat -a gas is generated from a liquid -a liquid is generated from a solid

what correctly describes entropy?

-the greater the freedom of motion of particles in a system, the greater the entropy of the system -entropy is a measure of the energy dispersal of the system

In the expression delta G = RTln(Q/K), delta G = 0 when Q is equal to K, ie when Q/K=

1

Which of the following reactions are predicted to have a positive value for ΔSrxn? Select all that apply. Multiple select question.

H2CO3 (aq) → H2O (l) + CO2 (g) N2O4 (g) → 2NO2 (g)

A process that can occur only if the surroundings continuously supplies the system with an input of energy is called?

Nonspontaneous proccess

A process that can occur without a continuous input of energy is a(n) _____ process. Multiple choice question.

Spontaneous

What effect does increasing the temperature of a gas have on its entropy, and why? Select all that apply

The entropy of a system increases as the temperature increases. As the temperature of a system is increased, all types of kinetic energies increase.

The second law of thermodynamics states that the total _____ of the universe will _____ for any spontaneous process. Multiple choice question.

entropy, increase

the entropy of the surroundings increases in a _______ reaction

exothermic

A key factor that influences reaction spontaneity is changes in the of motion of the particles in the system, i.e. the of the energy of motion of the particles.

freedom, dispersal

if a given reversible reaction has posistive values for both delta H and delta S, the value of delta G will become ______ negative as temp increases, and the formation of the ______ will be increasingly favored

more, products

the larger the equilibrium constant K the more _____ the value of delta g reaction and the more the _____ are favored at equilibrium.

negative, products

water freezes at -20 degrees and delta s system <0, spontaneous or no? what about the condensing of water?

spontaneous also spontaneous

Gibbs free energy change definition

symbolized by delta G -is a measure of the spontaneity of a process, and of the useful energy available from it

Molecular complexity and entropy

the entropy of molecules increases as they become more complex and the number of atoms increases. ex: N2O4(g) > NO2(g) ex 2: S2F10 > SF6 > SF4 ex 3: CH3CH2OH(l) CH3OCH3(l) both have the same number of bonds but the first one forms a hydrogen bond and the other does not, hydrogen bond the freedom f motion is seized that is why the second one is greater than the first CH3CH2OH(l) < CH3OCH3(l)

Endothermic changes

the system gains heat from the surroundings. This heat lost by the surroundings decreases the freedom of motion of the particles which decreases the entropy of the suroundings. Therefore qsys > 0, qsurr < 0, and ΔSsurr < 0.

The second law of thermodynamics states that

the total entropy of the universe will increase for any spontaneous process, all real proccesses occur spontaneously in the direction that increases the entropy of the univserse

Which of the conditions described below will result in a spontaneous reaction? Select all that apply. Multiple select question.

ΔSsys = 30 J/K; ΔSsurr = 10 J/K ΔSsys = -20 J/K; ΔSsurr = 25 J/K

Which of the following statements correctly reflect the relationship between the spontaneity of a reaction and the sign of ΔH? Select all that apply.

-An endothermic process may be spontaneous under one set of conditions but nonspontaneous at a different temperature and pressure. -It is possible for an exothermic process to be nonspontaneous.

Which statements correctly describe the entropy changes that occur when an ionic solid dissolves in water? Select all that apply. Multiple select question.

-The hydration of highly charged ions generally results in a decrease in the entropy of the system. -The mobility of H2O molecules in such a solution is reduced since they are arranged in a specific way around the dissolved ions. -The dissociation of an ionic solute in water causes the entropy of the system to increase.

Examples of spontaneous proccesses

-a spark to ignite gasoline -a push to knock a book off a desk -roll a ball down a slope -a match continues to burn after being lit -a soluble salt dissolves when it is mixed with water -iron rusts when exposed to salty air -a satellite falls to earth -average car prices increase

TEST Q: Which of the following statements is true about the equilibirum constant for a reaction if delta G is negative? k=0, k=1, k>1, k<1, k< 10^-10

k>1 -RTln(K)

for a spontaneous proccess delta G ______ 0

less than

When Q < K Q > K Q = K What is the sign for delta G

less than zero more than zero equal to zero

At a certain temperature, the change in entropy of the system is calculated to be ΔSsys. If the system is at equilibrium, what is the value of ΔSsurr under these conditions?

ΔSsurr = -ΔSsys

predict the sign of delta S for each proccess below (a) O2(g) (1.0 L at 1 atm) --> 02(g) (0.10L at 10atm) (b) Cu(s) (350C and 2.5 atm) ---> Cu(s) (450C and 2.5 atm) (c) Cl2(g) (100C and 1 atm) ---> Cl2(g) (10C and 1 atm)

(a) neg (b) pos (c) neg

C(s) +O2(g) ---> CO2(g) N2(g) + O2(g) --> 2NO(g) pos/neg/=0 entropy?

=0 (1-1) = 0 (2-2) =0

TEST Q: A certain proccess has delta H > 0, delta S < 0, and delta G < 0. The values of delta H and delta S do not depend on temperature. which of the following is a correct conclusion about this proccess? A)It is spontaneous at low T B) It is nonspontaneous at all T C) None of these choices are correct D) It is spontaneous at high T E) It is spontaneous at alllT

B) It is non spontaneous at all T +G = +H-(-S) no matter what t you put, you get, two negatives make a pos, and since g will pos, the reaction will be non spontaneous

in an endothermic reaction heat is

absorbed from surroundings

In an endothermic proccess, the surroudnings provides the heat ______ by the system, and S surr ______.

absorbed, decreases qsys >0 qsurr <0 and delta s surr <0

In an exothermic prooccess, the surroundings ____ the heat released by the system and S surroundings _______.

absorbs, increase qsys < 0 qsurr >0 and delta s surr >0

the standard state of an element is its most stable _____ form at standard temperature and pressure.

allotropic

TEST Q: given thermodynamic data like delta g, delta h, delta s. how do you find boiling point?

delta H(j) / delta S(j)

2C(s) + O2(g) --> 2CO(g) pos/neg/=0 entropy?

pos (2-1) = 1

For a chemical reaction, ∆S°rxn = ΣnS°....

products, reactants

Entropy is a _______ function and the change in entropy for a process therefore depends only on the ________ between the final and initial rates, not on the path taken for the process.

state, difference

Rank the following compounds in order of decreasing standard molar entropies. Place the compound with the highest entropy at the top of the list. Instructions

-C3H8 -CH4 (g) -CH4 (l)

When Q and K are very different, the reaction releases or absorbs

alot of energy

For a chemical reaction delta S is equal to the

sum entropy of products - sum entropy of reactants

A particular process results in a decrease in the entropy of the system. If this process is spontaneous, what must be true about the entropy change of the surroundings?

ΔSsurr > -ΔSsys

for a system at equilibrium delta G ______ 0

equal

As W increases entropy _____

increases

Calculate ΔSuniv and identify the process CO2 (g) → CO2 (aq) as spontaneous, nonspontaneous, or at equilibrium at 25oC. Use the values provided in the table below.

ΔSuniv = -27.2 J/mol⋅K The reaction is nonspontaneous at this temperature.

The third law of thermodynamics states that a perfect of a pure solid substance has entropy at a temperature of 0 K.

crystal, zero

for a nonspontaneous proccess delta G _____ 0

greater than

without doing calculate predict sign of delta S (a) Ag+ (aq) + Cl- (aq) ---> AgCl (s) (b) KBr(s) ---> KBr(aq) (c)CH3=CH2(g) ---> H2C-H2C-CH2(g)

(a) neg (0-2) = -2 (b) pos (1-0) =1 (c) becomes less complex loses entropy neg (chains are less complex)

Select the definition of entropy in terms of the number of microstates over which the energy of a system can be dispersed. Multiple choice question.

S = k ln W

as temperature increases delta S surroundings _______.

decreases

predict the sign of delta S sys for each of the following proccesses (a) Gasoline vapors mix with air in a car engine. (b) Hot air expands. (c) Humidity condenses in cold air. (d) A pond freezes in the winter. (e) Atmospheric Co2 dissolves in the ocean. (f) An apple tree bears fruit.

(a) pos (b) pos (c) neg (d) neg (e) neg (f) neg

Calculate the entropy change of the surroundings in J/mol⋅K when 30 kJ of heat is released by the system at 27oC.

+100

Calculate the entropy change of the surroundings in J/mol when 30 kJ of heat is released from the system at 27 degrees celcius

+100 this is the result of -(30,000 J/300 K)

Which of the following options correctly describe entropy? Select all that apply.

- Entropy is a measure of the energy dispersal of a system - The greater the freedom of motion of particles in a system, the greater the entropy of the system.

the relationship between delta S surroundings / delta H system and T (at constant pressure so that q system = delta H system)

- delta H / T = delta S surroundings furthermore: -if delta h is negative, delta s will be pos -delta s surroundings is directly proportional to temperature

Calculate the standard entropy change for the reaction 2A + 3B → 2C.

-8

In which of the following options does the first species of each pair have a greater standard entropy? Select all that apply. Multiple select question.

-A more complex substance vs. a simpler substance in the same phase if their molar masses are similar -A gas at 250°C vs. the same gas at 100°C

Which of the following conditions are specified by standard state conditions? Select all that apply.

-Solutions are at a concentration of 1 M. -Gases are at a pressure of 1 atm. -The standard state of an element is its most stable allotropic form at standard state temperature and pressure.

Which of the following statements correctly explain the increase in entropy that occurs when a substance changes from a solid to a liquid, or from a liquid to a gas? Select all that apply

-The energy of the particles increases during these phase changes. -The freedom of movement of the particles increases in the change solid → liquid → gas.

the effect on entropy of increasing the temperature of a gas

-as temperature of a system is increased, all kinetic energies increase, along with entropy

Conditions specified as standard state conditions

-for thermodynamic calculations a reaction is carried out at 25 degrees celcius or 298 K (NOTE: not 0 degrees celcius or 273 like in gas law calc) -gases are at a pressure of 1 atm -solutions are at a concentration of 1M -the standard state of an element is its most stable allotropic form at standard state temperature and pressure

two key factors that influence reaction spontaneity

-freedom of motion of the particles in the system -dispersal of energy of motion of particles

examples of spontaneous exothermic proccesses

-freezing and condensation at low temps -combustion reactions -oxidation of iron and other metals

Match each state of matter with the appropriate characteristics at standard state.

-gases: pressure of 1 atm -solutions: 1 M concentration -solids or liquids: pure substance in its most stable form

do spontaneity (spontaneous or nonspontaneous) of a reaction and the sign of delta H have a correlation

-it is possible for an exothermic process to be non spontaneous -an endothermic process may be spontaneous under one set of conditions, but non spontaneous at a different temperature and pressure

examples of spontaneous endothermic proccesses

-melting and vaporization at higher temps -ice will spontaneously melt above 0 degrees celcius -dissolution of sodium chloride in water -dissolving of most soluble salts -crystalline solid + liquid = ions in solution -crystalline solid = gases + ions in solution

delta s surroundings = ? wha tis delta s surroundings equal to for a process at constant P?

-qsys / T -delta h sys/ T

what factors increasing entropy?

-raising the temperature -phase changes from solid, liquid, to gas -entropy larger for a large monoatomic substance vs. a small one (larger for larger molecules) -allotropes with more atoms vs. fewer -a more complex substance vs. a more simple substance in the same phase, if their molar masses are similar -more moles= more entropy

The standard free energy change for a reaction is the free energy change for the reaction under standard state conditions which are

1 atm of pressure and concentration of 1 M

If we know that the entropy change for a reaction is x J/K and the system absorbed y kJ of heat during that reaction, what is the temperature at which this occurred (in K)?

1000y / x

If we know that the enetropy chnage for a reaction is x J/K and the system absorbed y KJ of heat during that reaction, what is the temperature at which this occured in K?

1000y/x

TEST Q: which of the following is true 1) the standard molar entropy of a pure compound increases with increasing temperature 2) the standard molar entropy for elements in their elemental forms at standard state is zero

2 is WRONG

Which of the following factors increase the likelihood that a reaction will be spontaneous? Select all that apply.

A gas is generated from a liquid. Energy is released in the form of heat. A liquid is generated from a solid.

What is a spontaneous process?

A process that occurs under specified conditions without a continuous input of energy

TEST Q: is the following proccess spontaneous? picture of a solid going to a gas A) No because - H B) Yes because +H C) Yes because +S D) No because -S e) it is impossible to know without knowing the temperature of the system

E) the calculation of delta G is how we tell whether a reaction is spontaneous or not, the sign of delta S or H on its own cannot tell us the spontaneity of the system

Which of the following correctly describes the first law of thermodynamics?

Energy can be converted from one form to another, but it cannot be created or destroyed.

Which of the following statements correctly describe the general trends in standard entropy? Select all that apply

For elements with two allotropic forms, the one that is more mobile will have a greater value for standard entropy. For two monatomic species, the one with the larger molar mass will have a higher standard entropy.

H2O (l) → H2O (s); ΔSsys = -22 J/K The process shown above is spontaneous at temperatures below 0oC, even though the entropy of the system is decreasing. Which of the following is the best explanation for the way in which this process obeys the second law of thermodynamics? Multiple choice question.

Freezing is exothermic; the surroundings increase in entropy.

Which of the following options correctly reflect the relationships between ΔSsurr, ΔHsys, and T (at constant pressure so qsys = ΔHsys)? Select all that apply.

If ΔHsys is negative, ΔSsurr will be positive. ΔSsurr is inversely proportional to temperature.

Which of the following options correctly reflect the relationships between ΔSsurr, ΔHsys, and T (at constant pressure so qsys = ΔHsys)? Select all that apply. Multiple select question.

If ΔHsys is negative, ΔSsurr will be positive. ΔSsurr is inversely proportional to temperature.

The combustion of glucose, represented by the equation C6H12O6 (s) + 6O2 (g) → 6CO2 (g) + 6H2O (g), is an exothermic reaction. Does this reaction cause an increase or decrease in entropy for the system and its surroundings? Multiple select question. Increase in ΔSsurr

Increase in ΔSsurr Increase in ΔSsys

TEST Q: if K< 1 is the reaction spontaneous or non spontaneous, what about K > 1

K < 1 = nonspontaneous ex: -8.314(298)ln(.45) = pos delta g K > 1 = spontaneous ex: -8.314(298)ln(2) = neg delta g

reactions predicted to have a positive value for delta S

N2O4 (g) ----> 2NO2 (g) (In the decomposition of N2O4, the product molecules are less complex, but the moles of gas have increased) H2CO3 (aq) -----> H2O (l) + CO2(g) (in the decomposition of carbonic acid, the number of gas moles increases, there fore the total entropy of the system increases)

TEST Q: a reaction is proceeding toward equilibrium at a carttain stage the concentrations of reactants and products are such that delta G = delta G rxn. What conclusion can be reasonably drawn about the reaction at this time?

Q= 1

what do all the symbols in S = k ln W mean?

S= entropy k=Boltzman constant 1.38 x 10^-23 J/K ln= natural log W= number of microstates

Given the balanced chemical equation CH4 (g) + 2O2 (g) → CO2 (g) + 2H2O (g), which of the following equations should be used to calculate the total entropy change for this reaction? (States of matter have been omitted for simplification.) Multiple choice question.

S[CO2] + 2(S[H2O]) - S[CH4] - 2(S[O2])

Two unknown reactions (A and B) are analyzed. It is found that reaction A is exothermic, while reaction B is endothermic. Which of these reactions is spontaneous?

Spontaneity can not be determined from the information given

A process that can occur without a continuous input of energy is a called a?

Spontaneous process -all chemical processes require energy (activation energy) to take lace, but once a spontaneous process has begun no further input of energy is needed

Which of the following is a correct description of the third law of thermodynamics?

The entropy of a perfect crystalline substance is 0 at 0 K.

The formation of water from its elements is exothermic (ΔHsys = -572 kJ/mol) and spontaneous although the reaction results in a large decrease in the entropy of the system: 2H2(g) + O2(g) → 2H2O(ℓ) ΔSsys = -327 J/K Which of the following is the best explanation how this process is able to obey the second law of thermodynamics that all spontaneous processes increase the entropy of the universe?

The reaction is highly exothermic and the surroundings increase in entropy.

Select which phase change, melting or vaporization, will have a greater increase in entropy for a given substance. In addition, select the statement(s) that explain(s) why.

Vaporization of a substance The mobility of the particles increases much more when this phase change occurs.

Which of the following is an application of the second law of thermodynamics?

a gas expands because matter tends to spread out

Physical States and Changes of State and entropy

as the freedom of motion of the substance increases, the entropy increases. The size of the entropy change is such that ΔS°vap is much greater than ΔS°fus .

definition of thermodynamics

branch of physics concerned with heat and temp and their relation to energy and work

the third law of thermodynamics states that a perfect _______ of a pure solid substance has _______ entropy at temperature of 0 K or at absolute zero.

crystal, zero

TEST Q: identify the compound with the standard free energy of formation equal to zero KBr(s), NO(g), O3(g), H2(g), it is hard to determine

d) H2

calculating K given delta G?

delta G = -(8.314)(298K)(lnK)

Which of the following values must be known in order to calculate the change in Gibbs free energy using the Gibbs equation?

delta G sys = delta H sys - T(delta S sys)

enthalpy vs entropy symbol

delta H vs. Delta S

what are the two things that make up delta S universe and what does it have to be to be spontaneous

delta S surroundings + delta S system Must be positive (delta S universe > 0)

for any reaction qsys ____ -qsurr. the heat transderred is specific for the reaction and is the same regardless of the temp of the surroundings.

delta S surroundings = - delta S system

A particular process results in a decrease in the entropy of the system. If the process is spontaneous, what must be true about the entropy change of the surroundings?

delta S surroundings > - delta S system

If "q" joules of heat are released reversibly when a substance is at a temperature T, what equation represents the change in entropy, delta S system during this process?

delta S sys = - q/T

TEST Q: Which of the following is true for a system at equilibrium?

delta S system = -delta S surroundings not: delta s system = delta s surr = 0 delta s universe is > 0 (it should be equal to 0) delta s universe = delta s system

TEST Q: to calculate delta G for any condition (standard or non standard)

delta g = delta g rxn + RTln(Q) dont forget to convert kj to j

TEST Q: finding equilibirum constant when given delta g reaction

delta g reaction = -RTlnQ Because R is in joules the anwser will be in joules so you have to convert back to kj

delta s universe =

delta s system + delta s surroundings, must be pos for a spontaneous proccess

TEST Q: which one is always pos for a spontaneous procces? delta s system, surroundings, universe, delta s universe or surroundings

delta s universe

the entropy of the surroundings decreases in an ________ reaction

endothermic

he first law of thermodynamics states that _____ is always conserved.

energy

the first law of thermodynamics states that _____ is always conserved.

energy, it is neither created nor destroyed, but is transferred in the form of heat and or work -it is always constant, so the energy of the universe is zero

TEST Q: the thermodynamic qyanity that expresses the extent of randomness or disorder is

entropy

The of a system, symbolized by the letter S, is related to the number of different possible ways the energy of a system can be dispersed.

entropy

the ______ of a system, symbolized by the letter S, is related to the number of possible ways that energy of a system can be dispersed.

entropy (the greater the freedom of motion of particles in a sustem, the greater the entropy of the system)

A system is in a state of when ΔSuniv = 0.

equilibrium

Since entropy is a state function, the total entropy change for a process is given by S _____ - S _____.

final , initial

temperature changes and entropy

for a given substance, S° increases as the temperature increases.

H2O (l) ----> H2O (s) delta S sys = -22 J/K why does this process obey the second law of thermodynamics?

freezing is exothermic, the surroundings increase in entropy (the addition of heat causes a much greater increase in entropy when the temp is low (S=q/t) this is why water freezes only at low temperatures

Without doing a calculation predict the sign of delta S for the following reactions: (a) H2S(g) + 1/2 O2(g) ---> 1/8 S8 (s) + H2O(g) (b) HCl(aq) +NaOH(aq) ---> NaCl(aq) + H2O(l) (c) 2NO2(g) ---> N2O4(g)

from a solid liquid to gas randomness increases -look for number of moles of gas' decreasing aq counts too (products - reactants) (a) neg (1-1.5) = neg (b) neg (1 aq- 2 aq) = neg (c) neg (1-2) neg

each state of matter and its most appropriate standard state Gases Solutions Solids or Liquids for standard molar entropies, and in what unit

gases = pressure of 1 atm solutions= 1 M concentration Solids and liquids = Pure substance in its most stable form usally at 298K J/mol.K

As the temperature of a system increases, the entropy _____ due to a(n) _____ in the number of available energy states and thus a(n) _____ in the number of possible arrangements of molecules within those energy states. Multiple choice question.

increase, increase, increase

The dissolution of a molecular solute in a polar solvent (e.g., sugar dissolving in water) typically results in a(n) _____ in entropy because both the molecules in the system and their energies are dispersed in a _____ volume.

increase, larger

The dissolution of a molecular solute in a polar solvent typically results in a ______ in entropy because both the molecules in the system and their energies are dispersed in a ________ volume.

increase, larger

Any spontaneous process is ________ because there is a net release of energy when it proceeds in that direction.

irreversible for example: a new car eventually rusts a spontaneous process, it cannot go back to being new

TEST Q: Give the name of the reaction that does not achieve the theoretical limits with respect to free energy in thermodynamics?

irreversible reaction

TEST Q: a certain proccess has delta S univ > 0 at 25 degrees celicus, what does one know about the proccess?

it is spontaneous at 25 degrees celcius

How is the number of microstates in a system, W, related to the entropy of the system, S?

ln W = S

An atom of hydroden is bonded to a metal surface (but free to move accross it) with 10 possible microsites of attachment. What would be the effect of increasing the size of the metal surface to 20 possible sites?

ln(20)/ln(10) = 1.3 the entropy would increase, but it would be less than double the original entropy

in an exothermic reaction heat is

lost to the surroundings

few microstates (smaller W) = higher or lower entropy? more microstates (larger W) has higher or lower entropy?

lower higher

The different possible ways for arranging the particles of a system are called _____. The greater the number of these states, the _____ the entropy of the system

microstates, larger

the different possible ways for arranging the particles of a system are called _________. The greater the number of microstates, the _______ the entropy of the system.

microstates, larger -each quantized state of the system is referred to as a microstate -at any instant, the total energy of the system is dispersed throughout one microstate, in the next instant it is dispersed throughout a different microstate

3H2(g) + n2(g) ---> 2NH3(g) N2(g) + 2O2(g) --> N2O4(g) 2H2(g) + O2(g) ---> 2H2O(g) all of these reactions have neg/pos/=0 entropy?

neg (2-3) = -1 (1-3) = -2 (2-3) = -1

If a reaction is spontaneous is one direction, is it spontaneous in the reverse direction under the same conditions?

no it is not -it would be non spontaneous in the reverse direction

Does a spontaneous process mean fast or slow?

no, it means that in a given time, the process will occur on its own -ex: graphite is more stable than diamond, so the conversion of diamond into graphite is spontaneous. however its so slow that it will not occur in your lifetime or many generations afterwards

what does the sign of Delta G indicate about whether the reactants or products are favored?

pos = reactant favored neg= product favored

Finding delta S for a reaction

products - reactants (despite whether they are solid liquid or gas) always multiply the entropy of each product and or reactant by its stoichiometric coefficients

according to the first law of thermodynamics what is delta E equal to?

q + w (heat plus work)

In an exothermic reaction, heat is _____ the surroundings. The particles of the surroundings have _____ freedom of motion and ΔSsurr therefore _____.

released to to; greater; increases

TEST Q: if the delta G > 0 and Q> K the reaction is proceeding in what direction

reverse direction

at a given set of conditions, each microstate has the _____ total energy as any other.

same -therefore each microstate is therefore equally likely -the number of microstates= the number of ways it can disperse its kinetic energy among the various motions of its particles

a chemical reaction that is procceeding toward equilibirum is _______ in that direction.

spontaneous

Entropy is a function, and the change in entropy for a process therefore depends only on the between the final and initial states, not on the path taken for the process.

state, difference

Dissolving a solid or a liquid and entropy

the entropy of a dissolved solid or liquid is always greater than the entropy of the pure substance.

the reaction that results in an overall increase in the number of gas molecules has a pos sign for delta S rxn. Why?

the entropy of a substance in the gas phase is much higher than its entropy in the liquid or solid phase

Atomic size and entropy

the entropy of atoms generally increases down a group since the number of microstates increases. ex: HBr(g) > HCl(g) Ba(s) > Ca(s) > Mg(s)

TEST Q:If delta G rxn < 0 and Q < K the reaction is proceeding in what direction

the reaction is proceeding in the foward direction to reach equilibirum

Find the formation of 1 mole of PCl5 (g) from its elements

the reaction is: 1/4 P(s) + 5/2 Cl2(g) ---> PCl5 (g) delta S (reaction) = [353]- [(1/4)(41.1) + (5/2)(223)] = -214.775

TEST Q: with thermodynamics one cannot determine?

the speed (or rate of reaction)

Exothermic changes

the system loses heat to the surroundings. The heat gained by the surroundings increases the freedom of motion of the particles which increases the entropy of the suroundings. Therefore qsys < 0, qsurr > 0, and ΔSsurr > 0.

In all spontaneous endothermic proccesses exhibit an increase in entropy

true

find delta g for a reaction given delta H final and S values

use delta G = delta H- Tdelta S assume T= 298 K

delta g is the amount of

useful work the system can do during a spontaneous reaction at constant temperature and pressure

when Q and K are very similar, the reaction releases or absorbs

very little energy

Dissolving a gas and entropy

when a gas dissolves in a liquid, the entropy always decreases but when dissolved in another gas it increases.

the first law of thermodynamics states only that the total energy of the universe is _____. However, ______ account for the direction of spontaneous change.

zero, cannot

When heat is transferred from the system to the surroundings, the amount of energy that is dispersed is greater when the temperature is low. Which of the following reflect this relationship (at constant pressure)?

ΔSsurr = - ΔHsys/T ΔSsurr = - qsys/T


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