When `DeltaG = 0`, the process is …….

DeltaE=0 for which process

Free enegry , G = H - TS , is state function that indicates whther a reaction is spontaneous or non-spontaneous. If you think of TS as the part of the system's enegry that is disordered already, then (H -TS) is the part of the system's energy that is still ordered and therefore free to cause spontaneous change by becoming disordered. Also, DeltaG = DeltaH - T DeltaS From the second law of thermodynamics, a reaction is spontaneous if Delta_("total")S is positive, non-spontaneous if Delta_("total")S is negative, and at equilibrium if Delta_('total")S is zero. Since, -T DeltaS = DeltaG and since DeltaG and DeltaS have opposite sings, we can restate the thermodynamic criterion for the spontaneity of a reaction carried out a constant temperature and pressure. IF DeltaG lt 0 , the reaction is spontaneous. If DeltaG gt 0 , the reaction is non-spontaneous. If DeltaG = 0 , the reaction is at equilibrium. Read the above paragraph carefully and answer the following questions based on the above comprehension. For the spontaneity of a reaction, which statement is true?

An ideal gaseous sample at initial state I (P_0, V_0, T_0) is allowed to expand to volume 2V_0 using two different process, in the first process the equation of process is PV_2=K_1 and in second process the equation of the process is PV=K_2 .Then

A contributions of both heat (enthalpy) and randomness(entropy) shall be considered to the overall spontaneity of process.When deciding about the spontaneity of a chemical reaction or other process, we define a quantity called the Gibb's energy change (DeltaG) . DeltaG=DeltaH-TDeltaS where, DeltaH =Enthalpy change, DeltaS =Entropy change , T=Temperature in kelvin. If DeltaGlt0 , Process is spontaneous , DeltaG=0 , Process is at equilibrium , DeltaGgt0 , Process is non-spontaneous. 5 mol of liquid water is compressed from 1 bar to 10 bar at constant temperature.Change is Gibb's energy (DeltaG) in Joule is:[Density of water = 1000 kg//m^3 ]

A contributions of both heat (enthalpy) and randomness(entropy) shall be considered to the overall spontaneity of process.When deciding about the spontaneity of a chemical reaction or other process, we define a quantity called the Gibb's energy change (DeltaG) . DeltaG=DeltaH-TDeltaS where, DeltaH =Enthalpy change, DeltaS =Entropy change , T=Temperature in kelvin. If DeltaGlt0 , Process is spontaneous , DeltaG=0 , Process is at equilibrium , DeltaGgt0 , Process is non-spontaneous. For the change H_2O(s),(273 K ,2 atm) to H_2O(l) ,(273 K, 2 atm), choose the correct option.

Compute the standard free energy chagne (DeltaG^(@)) for the process Zn^(2+)(aq)+2e^(-)rarrZn(s) : E^(@)Zn^(2+)=-0.76V

A contributions of both heat (enthalpy) and randomness(entropy) shall be considered to the overall spontaneity of process.When deciding about the spontaneity of a chemical reaction or other process, we define a quantity called the Gibb's energy change (DeltaG) . DeltaG=DeltaH-TDeltaS where, DeltaH =Enthalpy change, DeltaS =Entropy change , T=Temperature in kelvin. If DeltaGlt0 , Process is spontaneous , DeltaG=0 , Process is at equilibrium , DeltaGgt0 , Process is non-spontaneous. Quick lime (CaO) is produced by heating limestone (CaCO_3) to drive off CO_2 gas. CaCO_3(s)toCaO(s)+CO_2(g),DeltaH^@=180 KJ,DeltaS^@=150 J//K Assuming that variation of enthalpy change and entropy change with temperature to be negligible, choose the correct option :

When the gas is ideal and process is isothermal, then

When the gas is ideal and process is isothermal, then

The DeltaG at m pt. of ice is zero. T/F