Exercise 1.Give an increasing order of entropy value for I mole of following substances and explain briefly. a)CH;(CH)CH3;b)CH,CH3;c)CH(CHCH d)CHCHCH y Scm.cuScn.cn.cH.<ScH.(CH..cHScu.Cu.cm Exercise 2.Give an increasing order of the entropy value for I mole of following substances and explain briefly. a)Li;b)Cu;c)K;d Fe S(Li)<S(K)<S(Fe)<S(Cu) Atomic number:3,19,26,29 Molar mass(gmol:6.94;39.09;55.85;63.55
S < S <S < S CH CH CH CH CH CH (CH ) CH CH (CH ) CH Exercise 1. Give an increasing order of entropy value for 1 mole of following substances and explain briefly. a) CH3(CH2 ) 4CH3; b) CH3CH3; c) CH3(CH2 ) 2CH3; d) CH3CH2CH3 CH CH CH CH CH CH (CH ) CH CH (CH ) CH 3 3 3 2 3 3 2 2 3 3 2 4 3 S < S <S < S Exercise 2. Give an increasing order of the entropy value for 1 mole of following substances and explain briefly. : a) Li; b) Cu; c) K; d) Fe S( ) < S( ) <S( ) < S Li K Fe (Cu ) Atomic number: 3, 19, 26, 29 Molar mass (g/mol): 6.94; 39.09; 55.85; 63.55
The molecular interpretation of Entropy S=k.Inw The more degrees of freedom a molecule has, the greater its entropy. Which one has the greater entropy value in the following each pair of substances: (1)I mole of HCI(g)or Imole ofAr (g) (2)1 mole of H2 (g)at STP or 1mole of H2 (g)at 100C and 0.5 atm (3)1 mole of NO2 (g)at STP or 1mole of N2O (g)at STP (4)1 mole of H2 (g)at STP or 1mole of NO2 (g)at STP
The molecular interpretation of Entropy S k = ⋅ln W The more degrees of freedom a molecule has, the greater its entropy. Which one has the greater entropy value in the following each pair of substances: (1) 1 mole of (1) 1 mole of HCl (g) or 1mole of (g) or 1mole of Ar (g) (2) 1 mole of H 2 (g) at STP or 1mole of H 2 (g) at 100 °C and 0.5 atm (3) 1 mole of NO 2 (g) at STP or 1mole of N 2 O 4 (g) at STP (4) 1 mole of H 2 (g) at STP or 1mole of NO 2 (g) at STP
Reversible Irreversible Processes 可逆 非可逆 Reversible process:a system is changing in such a way that it and its surrounding can restored to their original states by exactly reversing the change. The system can be completely restored to its original state with no net change to either the system or its surrounding In an isothermal process: 等温 The heat that would be transferred if the process were reversible. l rev The temperature at which the process occurs
Reversible & Irreversible Processes Reversible process: a system is changing in such a way that it and its surrounding can restored to their original states by exactly reversing the change. The system can be completely restored to its original state with no net change to either the system or its surrounding 可逆 非可逆 the system or its surrounding In an isothermal process: rev sys q S T ∆ = The heat that would be transferred if the process were reversible. The temperature at which the process occurs. 等温
Reversible Irreversible Processes I atm,0'C H,O(s)=H,O(1) Is it a reversible process? Melting a mole of ice at 0 'C and I atm to form I mole of liquid water at 0C and 1 atm. ,无限地 By adding the heat infinitely slowly and raising the T ofsurrounding infinitesimally above 0C 无穷小 △T→0 At0C △Sn In an isothermal process: SVS T 等温 H,O(s)=H,OI))△meling=6.01kJ1mol △H elting 1mol×6.01×103J/mol=22.0J1K T 个 273K S △S 1mol×(-6.01×103J/mol0=-22.0J/K T 273K rr △Sm=AS+ASm=22.0J1K+(-22.0J1K)=0 SVS Reversible!At equilibrium! 。.ee........... 岢逆 平衡
