SlideShare a Scribd company logo

Two component system

Download as PPTX, PDF
Bahauddin Zakariya University lahore
Bahauddin Zakariya University lahore

Two component system

Science
1 of 28
Two component system
Lead Silver(Pb-Ag) System. Potassium IodideWater(KI-H2O) System. Ferric Chloride Water(FeCl3-H2O) System.
Some important terms …  Phase.  Components.  Degree of freedom.  Homogeneous system.  Heterogeneous system.  Phase rule.  Significance of phase rule.  Limitations of phase rule.  Phase diagram.  Eutectic system.  Eutectic point.
Phase (P): • “A phase is defined as any homogeneous physically distinct and mechanically separable portion of heterogeneous system in equilibrium. “ • Examples: • A gas mixture constituents a single phase (p = 1). Since gases are completely miscible. • Immiscible liquids constitute different phases. Thus carbon tetra chloride (CCl4) is immiscible in water (H2O). • For this system p =2. • Miscible liquids constitute a single phase. Thus alcohol is immiscible in water (H2O). • For this system p =1.
Components (C): “The number of components of a system at equilibrium is defined as the smallest number of independent constituents by means of which composition of each phase can be expressed directly (or) in terms of chemical equation.” For a system, Number of components = (number of chemical species) – (number of independent equations). C = N –E
Examples: KCl-NaBr-H2O system ; C=4 KCl + NaBr ⇌ NaCl + KBr Number of chemical species , N =5(KCl,NaBr,H2O,NaCl,KBr) Number of independent equations is E=1. C = 5-1 = 4. KCl-NaCl-H2O system ; C=3 Since there is no equation (E=0), N=3. Ice ⇌ water ⇌ water vapor H2O H2O H2O C=1.
Degrees of freedom (F): The number of independent variables such as temperature, pressure, concentration which must be specified in order to define the system completely.” If F = 0, then system is known as invariant system. If F = 1, then system is known as uni variant (or) mono variant system. If F = 2, then system is known as bi variant (or) di variant system. If F = 3, then system is known as tri variant system.
Examples : PV = nRT (for ideal gas) P = RT/V (or) p = CRT Here P, C, T‘s are intensive variables. If ‘P’and ‘T’are fixed, then the volume (V) will have a definite value. For a pure gas, F = 2 F = C – P + 2 = 1 – 1 + 2 = 2 (C = 1, p = 1), Bi variant. For a gaseous system consisting of two gases, F = 3. F = 2 -1 + 2 = 3, Tri variant.
Homogeneous system: It is a system, which is uniform through out in physical and chemical properties. Ex: the solution of NaCl in water is homogeneous system. Heterogeneous system: It is a system which consists of parts with different physical & chemical properties. Ex: the ice - water - water vapor system is a heterogeneous system. Because there are portions which physically distinct and mechanically separable from one another.
Phase rule:A rule relating the possible no of phases, constituents & degrees of freedom in a chemical system.(F=C-P+2) by Gibbs. • The phase rule at equilibrium is depend only on • temperature, • pressure and concentration variations • and is not influenced by • gravity, • surface forces, • electrical and magnetic forces, • then the number of degrees of freedom (F) exceeds the difference of number of components (C) and the number of phases(P) by 2.
Significance of phase rule:  Phase rule is applicable both physical & chemical equilibria.  Phase rule is applicable to microscopic systems.  We can conveniently classify equilibrium states in terms of phases, components and degrees of freedom.  The behavior of system can be predicted under different conditions.  According to phase rule, different systems behave similarly if they have same degrees of freedom.
Limitations of phase rule: • Phase rule is applicable only for those systems which are in equilibrium. • Only three degrees of freedom namely temperature, pressure and composition are allowed to influence the equilibrium systems. • Under the same conditions of temperature and pressure all the phases of the system must be present. • It considers only the number of phases rather than their amounts.
Phase diagrams: When a system goes from one phase to another phase, without change of chemical composition is known as “phase Transition.” Examples:  Melting (solid to liquid).  Boiling (liquid to gas).  Condensation (gas to liquid). A diagram which illustrates the conditions of equilibrium between various phases of a substance is called a “phase diagram.”
Two component system: In a system of two components, when p = 1 F = C – p + 2 = 2 -1 +2 =3 • This means that three variables must be specified in order to describe the condition of the phase. Ex: Ag – Pb system.
Eutectic system: A binary system in which two components are miscible in all proportions in the liquid state, but do not react chemically and each component has the property of lowering each others melting point is known as eutectic (easy to melt)system. A solid solution of a two component system which has the lowest freezing point of all the possible mixture of the component is known as “Eutectic mixture”. And the minimum freezing point of the eutectic mixture is known as “Eutectic point”.
Lead Silver (Pb-Ag) System:
Lead Silver (Pb-Ag) System:  L(327°C) is the melting point of Pb.  Addition of Ag lowers the melting point of Pb and LM is the melting point curve of Pb in the presence silver.  Along LM, solid Pb and the melt are in equilibrium.  Point N(961°C) represents the melting point of Ag.  Its melting point is lowered by the addition of Pb along the curve NM.  Hence NM is the melting point curve of Ag in the presence of Pb.  Along NM solid silver is in equilibrium with the melt.  The system along LM or NM is monovariant.  The curves LM & NM intersects at M, where three phases solid Pb, solid Ag & melt are in equilibrium.
Lead Silver (Pb-Ag) System:  The system is invariant and M represents the eutectic point.(303°C, 2.6% Ag by mass)
Potassium Iodide Water(KI-H2O) System:
KI-H20 System:  L(0°C) is the freezing point of water and is lowered by the addition of salt(KI).  Hence after addition of salt(KI), LM is the freezing point of water in the presence of KI.  Along LM ice separates out from the solution and system is monovarient.  NM is the solubility curve of KI.  M Pt of KI cannot be realized in this phase diagram because it has high M Pt as compared to critical temperature of H20.  From slope of the curve it reveals that the solubility of KI increases with the rise in temperature.  At M where LM & NM meet, three phases(ice, solid KI & solution) are in equilibrium, the system is invariant.  M is the eutectic point(-23°C, 52%KI by mass).
KI-H20 System:  In case of system involving salt & water, the eutectic point is generally known as cryohydric point.  The temperature at M is the cryohydric temperature.  Solution of composition M is the cryohydric solution.  For such systems the lowest temperature that can be attained is the cryohydric temperature and it is the characteristic of each system.
Ferric Chloride Water(FeCl3-H2O) System:
Ferric Chloride Water(FeCl3-H2O) System:  In this system four congruently melting compounds are formed which are, • dodecahydrate(Fe2Cl6.12H2O) • heptahydrate(Fe2Cl6.7H2O) • pentahydrate (Fe2Cl6.5H2O) • tetrahydrate(Fe2Cl6.4H2O).  The phase diagram consists of four maxima corresponding to the formation of these hydrates.  Points N,P,R,T represents the congruent melting points of dodeca,hepta,penta and tetra hydrates respectively.  The congruent melting point of a salt hydrate is also known as the dystectic point.
Ferric Chloride Water(FeCl3-H2O) System:  There are five cryohydric points at M,O,Q,S and U.  L is the melting point of ice.  Addition of Fe2Cl6 lowers the melting point along LM.  At the cryohydric point M the solution becomes saturated w.r.t dodecahydrate and represents the lowest temperature that can be attained with this system.  Curves MNO,OPQ,QRS and STU represents the solubilities of dodeca,hepta,penta and tetra respectively while UV represents the solubility characteristic of the anhydrous salt.  In the diagram the solubility of each hydrate increases with the rise of temperature.
Ferric Chloride Water(FeCl3-H2O) System:  Now consider the phase changes that result when an unsaturated solution represented by point k is concentrated isothermally by adding anhydrous ferric chloride along ku.  Firstly a saturated solution of dodecahydrate results at l.  At m the whole mass solidifies to form dodecahydrate which melts when more of ferric chloride is added.  Dodecahydrate disappears beyond n and between n and o an unsaturated solution exists.  The solution becomes saturated with respect to heptahydrate at o.
Ferric Chloride Water(FeCl3-H2O) System:  Further addition of ferric chloride increases the amount of solid heptahydrate in the solution and at p the whole solutions solidifies yielding heptahydrate.  The heptahydrate persists upto q.  Between q and r the solution remains unsaturated, at r the pentahydrate begins to crystallize out.  At s solidification of whole mass into pentahydrate occurs.  Between s and t a mixture of penta and tetrahydrate exists which is completely converted into tetrahydrate at t, beyond which tetrahydrate decomposes into anhydrous ferric chloride and at u only the anhydrous salt remains.
Two component system
Two component system

Recommended

Application of phase rule to three component system
Application of phase rule to three component systemApplication of phase rule to three component system
Application of phase rule to three component systemtidke123
 
Estimation of fe(ii) ions by titrating against k2 cr2o7 using internal indicator
Estimation of fe(ii) ions by titrating against k2 cr2o7 using internal indicatorEstimation of fe(ii) ions by titrating against k2 cr2o7 using internal indicator
Estimation of fe(ii) ions by titrating against k2 cr2o7 using internal indicatorMithil Fal Desai
 
48695528 the-sulphur-system
48695528 the-sulphur-system48695528 the-sulphur-system
48695528 the-sulphur-systemHitesh Wagle
 
Trans effect And Its Applications
Trans effect And Its ApplicationsTrans effect And Its Applications
Trans effect And Its ApplicationsImaginative Brain Science
 
Pearson's HSAB Theory
Pearson's HSAB TheoryPearson's HSAB Theory
Pearson's HSAB TheoryLara Sahu
 
Estimation of Cu(II) in copper sulphate, idometrically
Estimation of Cu(II) in copper sulphate, idometricallyEstimation of Cu(II) in copper sulphate, idometrically
Estimation of Cu(II) in copper sulphate, idometricallyMithil Fal Desai
 
The phase rule
The phase ruleThe phase rule
The phase ruleJatin Garg
 
Non-equilibrium Thermodynamics
Non-equilibrium ThermodynamicsNon-equilibrium Thermodynamics
Non-equilibrium ThermodynamicsVarinderKhepar
 

Recommended

Application of phase rule to three component system
Application of phase rule to three component systemApplication of phase rule to three component system
Application of phase rule to three component systemtidke123
 
Estimation of fe(ii) ions by titrating against k2 cr2o7 using internal indicator
Estimation of fe(ii) ions by titrating against k2 cr2o7 using internal indicatorEstimation of fe(ii) ions by titrating against k2 cr2o7 using internal indicator
Estimation of fe(ii) ions by titrating against k2 cr2o7 using internal indicatorMithil Fal Desai
 
48695528 the-sulphur-system
48695528 the-sulphur-system48695528 the-sulphur-system
48695528 the-sulphur-systemHitesh Wagle
 
Trans effect And Its Applications
Trans effect And Its ApplicationsTrans effect And Its Applications
Trans effect And Its ApplicationsImaginative Brain Science
 
Pearson's HSAB Theory
Pearson's HSAB TheoryPearson's HSAB Theory
Pearson's HSAB TheoryLara Sahu
 
Estimation of Cu(II) in copper sulphate, idometrically
Estimation of Cu(II) in copper sulphate, idometricallyEstimation of Cu(II) in copper sulphate, idometrically
Estimation of Cu(II) in copper sulphate, idometricallyMithil Fal Desai
 
The phase rule
The phase ruleThe phase rule
The phase ruleJatin Garg
 
Non-equilibrium Thermodynamics
Non-equilibrium ThermodynamicsNon-equilibrium Thermodynamics
Non-equilibrium ThermodynamicsVarinderKhepar
 
Gibbs Adsorption Isotherm
Gibbs Adsorption Isotherm Gibbs Adsorption Isotherm
Gibbs Adsorption Isotherm GD Rungta College of Science and Technology
 
Clausius - Clapeyron Equation
Clausius - Clapeyron EquationClausius - Clapeyron Equation
Clausius - Clapeyron EquationMarx Endico
 
Phase rule and it's applications
Phase rule and it's applicationsPhase rule and it's applications
Phase rule and it's applicationsPrajaktaPanda
 
Photochemistry
PhotochemistryPhotochemistry
Photochemistryswapnil jadhav
 
Separation of lanthanides
Separation of lanthanidesSeparation of lanthanides
Separation of lanthanidesSt.John's College
 
Third law of thermodynamics
Third law of thermodynamicsThird law of thermodynamics
Third law of thermodynamicsPRUTHVIRAJ K
 
Ligand field theory - Supratim Chakraborty
Ligand field theory - Supratim ChakrabortyLigand field theory - Supratim Chakraborty
Ligand field theory - Supratim ChakrabortySupratimChakraborty19
 
Phase Equilibrium
Phase EquilibriumPhase Equilibrium
Phase EquilibriumUniversity of Zambia, School of Pharmacy, Lusaka, Zambia
 
SNi Substitution Reactions
SNi Substitution ReactionsSNi Substitution Reactions
SNi Substitution ReactionsPankaj Bhootra
 
Kinetics of Chain reaction
Kinetics of Chain reactionKinetics of Chain reaction
Kinetics of Chain reactionSaiva Bhanu Kshatriya College, Aruppukottai.
 
Phase diagram of a one component system ( water system )
Phase diagram of a one component system ( water system )Phase diagram of a one component system ( water system )
Phase diagram of a one component system ( water system )ShahriarTipu1
 
Liquid crystal
Liquid crystalLiquid crystal
Liquid crystalsiddesh pawar
 
Phase Rule in three component system
Phase Rule in three component systemPhase Rule in three component system
Phase Rule in three component systemSPCGC AJMER
 
Stability of metal complexes
Stability of metal complexesStability of metal complexes
Stability of metal complexesSANTHANAM V
 
Trans effect
Trans effectTrans effect
Trans effectAteeqa Amjad
 
Synthesis of tris (thiourea) copper (i) sulphate by kwezi mwaka julius
Synthesis of tris (thiourea) copper (i) sulphate by kwezi mwaka juliusSynthesis of tris (thiourea) copper (i) sulphate by kwezi mwaka julius
Synthesis of tris (thiourea) copper (i) sulphate by kwezi mwaka juliusMakerere University
 
TWO COMPONENT SYSTEM
TWO COMPONENT SYSTEMTWO COMPONENT SYSTEM
TWO COMPONENT SYSTEMsharmeenkhan15
 
Metal Carbonyls
Metal CarbonylsMetal Carbonyls
Metal CarbonylsSPCGC AJMER
 
Flash photolysis and Shock tube method
Flash photolysis and Shock tube method Flash photolysis and Shock tube method
Flash photolysis and Shock tube method PRUTHVIRAJ K
 
Voltammetry
VoltammetryVoltammetry
VoltammetryShobana Subramaniam
 
9 - Phase diagrams.pdf
9 - Phase diagrams.pdf9 - Phase diagrams.pdf
9 - Phase diagrams.pdfupender3
 
Phase Diagrams and Phase Rule
Phase Diagrams and Phase RulePhase Diagrams and Phase Rule
Phase Diagrams and Phase RuleRuchi Pandey
 

More Related Content

What's hot

Clausius - Clapeyron Equation
Clausius - Clapeyron EquationClausius - Clapeyron Equation
Clausius - Clapeyron EquationMarx Endico
 
Phase rule and it's applications
Phase rule and it's applicationsPhase rule and it's applications
Phase rule and it's applicationsPrajaktaPanda
 
Third law of thermodynamics
Third law of thermodynamicsThird law of thermodynamics
Third law of thermodynamicsPRUTHVIRAJ K
 
Ligand field theory - Supratim Chakraborty
Ligand field theory - Supratim ChakrabortyLigand field theory - Supratim Chakraborty
Ligand field theory - Supratim ChakrabortySupratimChakraborty19
 
SNi Substitution Reactions
SNi Substitution ReactionsSNi Substitution Reactions
SNi Substitution ReactionsPankaj Bhootra
 
Phase diagram of a one component system ( water system )
Phase diagram of a one component system ( water system )Phase diagram of a one component system ( water system )
Phase diagram of a one component system ( water system )ShahriarTipu1
 
Phase Rule in three component system
Phase Rule in three component systemPhase Rule in three component system
Phase Rule in three component systemSPCGC AJMER
 
Stability of metal complexes
Stability of metal complexesStability of metal complexes
Stability of metal complexesSANTHANAM V
 
Synthesis of tris (thiourea) copper (i) sulphate by kwezi mwaka julius
Synthesis of tris (thiourea) copper (i) sulphate by kwezi mwaka juliusSynthesis of tris (thiourea) copper (i) sulphate by kwezi mwaka julius
Synthesis of tris (thiourea) copper (i) sulphate by kwezi mwaka juliusMakerere University
 
Flash photolysis and Shock tube method
Flash photolysis and Shock tube method Flash photolysis and Shock tube method
Flash photolysis and Shock tube method PRUTHVIRAJ K
 

What's hot (20)

Gibbs Adsorption Isotherm
Gibbs Adsorption Isotherm Gibbs Adsorption Isotherm
Gibbs Adsorption Isotherm
 
Clausius - Clapeyron Equation
Clausius - Clapeyron EquationClausius - Clapeyron Equation
Clausius - Clapeyron Equation
 
Phase rule and it's applications
Phase rule and it's applicationsPhase rule and it's applications
Phase rule and it's applications
 
Photochemistry
PhotochemistryPhotochemistry
Photochemistry
 
Separation of lanthanides
Separation of lanthanidesSeparation of lanthanides
Separation of lanthanides
 
Third law of thermodynamics
Third law of thermodynamicsThird law of thermodynamics
Third law of thermodynamics
 
Ligand field theory - Supratim Chakraborty
Ligand field theory - Supratim ChakrabortyLigand field theory - Supratim Chakraborty
Ligand field theory - Supratim Chakraborty
 
Phase Equilibrium
Phase EquilibriumPhase Equilibrium
Phase Equilibrium
 
SNi Substitution Reactions
SNi Substitution ReactionsSNi Substitution Reactions
SNi Substitution Reactions
 
Kinetics of Chain reaction
Kinetics of Chain reactionKinetics of Chain reaction
Kinetics of Chain reaction
 
Phase diagram of a one component system ( water system )
Phase diagram of a one component system ( water system )Phase diagram of a one component system ( water system )
Phase diagram of a one component system ( water system )
 
Liquid crystal
Liquid crystalLiquid crystal
Liquid crystal
 
Phase Rule in three component system
Phase Rule in three component systemPhase Rule in three component system
Phase Rule in three component system
 
Stability of metal complexes
Stability of metal complexesStability of metal complexes
Stability of metal complexes
 
Trans effect
Trans effectTrans effect
Trans effect
 
Synthesis of tris (thiourea) copper (i) sulphate by kwezi mwaka julius
Synthesis of tris (thiourea) copper (i) sulphate by kwezi mwaka juliusSynthesis of tris (thiourea) copper (i) sulphate by kwezi mwaka julius
Synthesis of tris (thiourea) copper (i) sulphate by kwezi mwaka julius
 
TWO COMPONENT SYSTEM
TWO COMPONENT SYSTEMTWO COMPONENT SYSTEM
TWO COMPONENT SYSTEM
 
Metal Carbonyls
Metal CarbonylsMetal Carbonyls
Metal Carbonyls
 
Flash photolysis and Shock tube method
Flash photolysis and Shock tube method Flash photolysis and Shock tube method
Flash photolysis and Shock tube method
 
Voltammetry
VoltammetryVoltammetry
Voltammetry
 

Similar to Two component system

9 - Phase diagrams.pdf
9 - Phase diagrams.pdf9 - Phase diagrams.pdf
9 - Phase diagrams.pdfupender3
 
Phase Diagrams and Phase Rule
Phase Diagrams and Phase RulePhase Diagrams and Phase Rule
Phase Diagrams and Phase RuleRuchi Pandey
 
the phase rule in chemical Eng.
the phase rule in chemical Eng.the phase rule in chemical Eng.
the phase rule in chemical Eng.Jaydrath Sindhav
 
4. phase rule
4. phase rule4. phase rule
4. phase ruleEkeeda
 
The phase rule_presentation
The phase rule_presentationThe phase rule_presentation
The phase rule_presentationSunil Verma
 
Sunny gupta phase_rule_ppt
Sunny gupta phase_rule_pptSunny gupta phase_rule_ppt
Sunny gupta phase_rule_pptSunnyGupta189
 
Introduction to phase diagram.pptx
Introduction to phase diagram.pptxIntroduction to phase diagram.pptx
Introduction to phase diagram.pptxajaynain10
 
5 phase rule and steels
5 phase rule and steels5 phase rule and steels
5 phase rule and steelsEkeeda
 
States of matter 2 changes of phases ppt
States of matter 2 changes of phases pptStates of matter 2 changes of phases ppt
States of matter 2 changes of phases pptNabeela Moosakutty
 
Sy second term, phase rule
Sy second term, phase ruleSy second term, phase rule
Sy second term, phase rulebapu thorat
 
Phase Equilibrium
Phase EquilibriumPhase Equilibrium
Phase EquilibriumSHILPA JOY
 
Phase rule -btech (chemistry)
Phase rule -btech (chemistry)Phase rule -btech (chemistry)
Phase rule -btech (chemistry)sonalijain1970
 

Similar to Two component system (20)

9 - Phase diagrams.pdf
9 - Phase diagrams.pdf9 - Phase diagrams.pdf
9 - Phase diagrams.pdf
 
Phase Diagrams and Phase Rule
Phase Diagrams and Phase RulePhase Diagrams and Phase Rule
Phase Diagrams and Phase Rule
 
Phase Equilibria .Manik
Phase Equilibria .ManikPhase Equilibria .Manik
Phase Equilibria .Manik
 
Phase Diagrams
Phase DiagramsPhase Diagrams
Phase Diagrams
 
the phase rule in chemical Eng.
the phase rule in chemical Eng.the phase rule in chemical Eng.
the phase rule in chemical Eng.
 
Lec 1 state of matter p2
Lec 1 state of matter p2Lec 1 state of matter p2
Lec 1 state of matter p2
 
4. phase rule
4. phase rule4. phase rule
4. phase rule
 
MATERIAL SCIENCE
MATERIAL SCIENCEMATERIAL SCIENCE
MATERIAL SCIENCE
 
The phase rule_presentation
The phase rule_presentationThe phase rule_presentation
The phase rule_presentation
 
Sunny gupta phase_rule_ppt
Sunny gupta phase_rule_pptSunny gupta phase_rule_ppt
Sunny gupta phase_rule_ppt
 
Phase Rule for BTech class.pptx
Phase Rule for BTech class.pptxPhase Rule for BTech class.pptx
Phase Rule for BTech class.pptx
 
Phase Equilibria
Phase EquilibriaPhase Equilibria
Phase Equilibria
 
Introduction to phase diagram.pptx
Introduction to phase diagram.pptxIntroduction to phase diagram.pptx
Introduction to phase diagram.pptx
 
5 phase rule and steels
5 phase rule and steels5 phase rule and steels
5 phase rule and steels
 
States of matter 2 changes of phases ppt
States of matter 2 changes of phases pptStates of matter 2 changes of phases ppt
States of matter 2 changes of phases ppt
 
Phase rule
Phase rulePhase rule
Phase rule
 
Sy second term, phase rule
Sy second term, phase ruleSy second term, phase rule
Sy second term, phase rule
 
The phase rule
The phase ruleThe phase rule
The phase rule
 
Phase Equilibrium
Phase EquilibriumPhase Equilibrium
Phase Equilibrium
 
Phase rule -btech (chemistry)
Phase rule -btech (chemistry)Phase rule -btech (chemistry)
Phase rule -btech (chemistry)
 

More from Bahauddin Zakariya University lahore

More from Bahauddin Zakariya University lahore (20)

Biogeochemical cycles
Biogeochemical cyclesBiogeochemical cycles
Biogeochemical cycles
 
Transplants , eugenics and their issues
Transplants , eugenics and their issuesTransplants , eugenics and their issues
Transplants , eugenics and their issues
 
Therapeutic hormones
Therapeutic hormonesTherapeutic hormones
Therapeutic hormones
 
Nucleic acid-and-cell-based-therapies
Nucleic acid-and-cell-based-therapiesNucleic acid-and-cell-based-therapies
Nucleic acid-and-cell-based-therapies
 
Antibodies, vaccines, adjuvents
Antibodies, vaccines, adjuventsAntibodies, vaccines, adjuvents
Antibodies, vaccines, adjuvents
 
DNA extraction for_fungi
DNA extraction for_fungiDNA extraction for_fungi
DNA extraction for_fungi
 
Dna sequencing techniques
Dna sequencing techniquesDna sequencing techniques
Dna sequencing techniques
 
Basics of DNA & RNA (Nucleic acid)
Basics of DNA & RNA (Nucleic acid)Basics of DNA & RNA (Nucleic acid)
Basics of DNA & RNA (Nucleic acid)
 
How to-compost
How to-compostHow to-compost
How to-compost
 
Bireactors
BireactorsBireactors
Bireactors
 
The composting process
The composting processThe composting process
The composting process
 
Flocculation
FlocculationFlocculation
Flocculation
 
Evaporation & crystalization
Evaporation & crystalizationEvaporation & crystalization
Evaporation & crystalization
 
Electrophoresis and electrodialysis_yansee_maria_jiaxuan
Electrophoresis and electrodialysis_yansee_maria_jiaxuanElectrophoresis and electrodialysis_yansee_maria_jiaxuan
Electrophoresis and electrodialysis_yansee_maria_jiaxuan
 
Drying process
Drying processDrying process
Drying process
 
Coagulation flocculation and_precipitation
Coagulation flocculation and_precipitationCoagulation flocculation and_precipitation
Coagulation flocculation and_precipitation
 
Chromatography
ChromatographyChromatography
Chromatography
 
Chromatography types
Chromatography types Chromatography types
Chromatography types
 
Chap9 downstream processing
Chap9 downstream processingChap9 downstream processing
Chap9 downstream processing
 
Centrifuges
CentrifugesCentrifuges
Centrifuges
 

Recently uploaded

Scheme-of-Work-Science-Stage-4 cambridge science.docx
Scheme-of-Work-Science-Stage-4 cambridge science.docxScheme-of-Work-Science-Stage-4 cambridge science.docx
Scheme-of-Work-Science-Stage-4 cambridge science.docxyaramohamed343013
 
Microphone- characteristics,carbon microphone, dynamic microphone.pptx
Microphone- characteristics,carbon microphone, dynamic microphone.pptxMicrophone- characteristics,carbon microphone, dynamic microphone.pptx
Microphone- characteristics,carbon microphone, dynamic microphone.pptxpriyankatabhane
 
Grafana in space: Monitoring Japan's SLIM moon lander in real time
Grafana in space: Monitoring Japan's SLIM moon lander in real timeGrafana in space: Monitoring Japan's SLIM moon lander in real time
Grafana in space: Monitoring Japan's SLIM moon lander in real timeSatoshi NAKAHIRA
 
SOLUBLE PATTERN RECOGNITION RECEPTORS.pptx
SOLUBLE PATTERN RECOGNITION RECEPTORS.pptxSOLUBLE PATTERN RECOGNITION RECEPTORS.pptx
SOLUBLE PATTERN RECOGNITION RECEPTORS.pptxkessiyaTpeter
 
TOPIC 8 Temperature and Heat.pdf physics
TOPIC 8 Temperature and Heat.pdf physicsTOPIC 8 Temperature and Heat.pdf physics
TOPIC 8 Temperature and Heat.pdf physicsssuserddc89b
 
BUMI DAN ANTARIKSA PROJEK IPAS SMK KELAS X.pdf
BUMI DAN ANTARIKSA PROJEK IPAS SMK KELAS X.pdfBUMI DAN ANTARIKSA PROJEK IPAS SMK KELAS X.pdf
BUMI DAN ANTARIKSA PROJEK IPAS SMK KELAS X.pdfWildaNurAmalia2
 
BIOETHICS IN RECOMBINANT DNA TECHNOLOGY.
BIOETHICS IN RECOMBINANT DNA TECHNOLOGY.BIOETHICS IN RECOMBINANT DNA TECHNOLOGY.
BIOETHICS IN RECOMBINANT DNA TECHNOLOGY.PraveenaKalaiselvan1
 
Vision and reflection on Mining Software Repositories research in 2024
Vision and reflection on Mining Software Repositories research in 2024Vision and reflection on Mining Software Repositories research in 2024
Vision and reflection on Mining Software Repositories research in 2024AyushiRastogi48
 
GenBio2 - Lesson 1 - Introduction to Genetics.pptx
GenBio2 - Lesson 1 - Introduction to Genetics.pptxGenBio2 - Lesson 1 - Introduction to Genetics.pptx
GenBio2 - Lesson 1 - Introduction to Genetics.pptxBerniceCayabyab1
 
Bentham & Hooker's Classification. along with the merits and demerits of the ...
Bentham & Hooker's Classification. along with the merits and demerits of the ...Bentham & Hooker's Classification. along with the merits and demerits of the ...
Bentham & Hooker's Classification. along with the merits and demerits of the ...Nistarini College, Purulia (W.B) India
 
(9818099198) Call Girls In Noida Sector 14 (NOIDA ESCORTS)
(9818099198) Call Girls In Noida Sector 14 (NOIDA ESCORTS)(9818099198) Call Girls In Noida Sector 14 (NOIDA ESCORTS)
(9818099198) Call Girls In Noida Sector 14 (NOIDA ESCORTS)riyaescorts54
 
Call Us ≽ 9953322196 ≼ Call Girls In Lajpat Nagar (Delhi) |
Call Us ≽ 9953322196 ≼ Call Girls In Lajpat Nagar (Delhi) |Call Us ≽ 9953322196 ≼ Call Girls In Lajpat Nagar (Delhi) |
Call Us ≽ 9953322196 ≼ Call Girls In Lajpat Nagar (Delhi) |aasikanpl
 
The dark energy paradox leads to a new structure of spacetime.pptx
The dark energy paradox leads to a new structure of spacetime.pptxThe dark energy paradox leads to a new structure of spacetime.pptx
The dark energy paradox leads to a new structure of spacetime.pptxEran Akiva Sinbar
 
Call Girls in Munirka Delhi 💯Call Us 🔝9953322196🔝 💯Escort.
Call Girls in Munirka Delhi 💯Call Us 🔝9953322196🔝 💯Escort.Call Girls in Munirka Delhi 💯Call Us 🔝9953322196🔝 💯Escort.
Call Girls in Munirka Delhi 💯Call Us 🔝9953322196🔝 💯Escort.aasikanpl
 
Solution chemistry, Moral and Normal solutions
Solution chemistry, Moral and Normal solutionsSolution chemistry, Moral and Normal solutions
Solution chemistry, Moral and Normal solutionsHajira Mahmood
 
Analytical Profile of Coleus Forskohlii | Forskolin .pptx
Analytical Profile of Coleus Forskohlii | Forskolin .pptxAnalytical Profile of Coleus Forskohlii | Forskolin .pptx
Analytical Profile of Coleus Forskohlii | Forskolin .pptxSwapnil Therkar
 
Recombinant DNA technology( Transgenic plant and animal)
Recombinant DNA technology( Transgenic plant and animal)Recombinant DNA technology( Transgenic plant and animal)
Recombinant DNA technology( Transgenic plant and animal)DHURKADEVIBASKAR
 
Pests of jatropha_Bionomics_identification_Dr.UPR.pdf
Pests of jatropha_Bionomics_identification_Dr.UPR.pdfPests of jatropha_Bionomics_identification_Dr.UPR.pdf
Pests of jatropha_Bionomics_identification_Dr.UPR.pdfPirithiRaju
 
Call Girls in Munirka Delhi 💯Call Us 🔝8264348440🔝
Call Girls in Munirka Delhi 💯Call Us 🔝8264348440🔝Call Girls in Munirka Delhi 💯Call Us 🔝8264348440🔝
Call Girls in Munirka Delhi 💯Call Us 🔝8264348440🔝soniya singh
 

Recently uploaded (20)

Scheme-of-Work-Science-Stage-4 cambridge science.docx
Scheme-of-Work-Science-Stage-4 cambridge science.docxScheme-of-Work-Science-Stage-4 cambridge science.docx
Scheme-of-Work-Science-Stage-4 cambridge science.docx
 
Microphone- characteristics,carbon microphone, dynamic microphone.pptx
Microphone- characteristics,carbon microphone, dynamic microphone.pptxMicrophone- characteristics,carbon microphone, dynamic microphone.pptx
Microphone- characteristics,carbon microphone, dynamic microphone.pptx
 
Grafana in space: Monitoring Japan's SLIM moon lander in real time
Grafana in space: Monitoring Japan's SLIM moon lander in real timeGrafana in space: Monitoring Japan's SLIM moon lander in real time
Grafana in space: Monitoring Japan's SLIM moon lander in real time
 
SOLUBLE PATTERN RECOGNITION RECEPTORS.pptx
SOLUBLE PATTERN RECOGNITION RECEPTORS.pptxSOLUBLE PATTERN RECOGNITION RECEPTORS.pptx
SOLUBLE PATTERN RECOGNITION RECEPTORS.pptx
 
TOPIC 8 Temperature and Heat.pdf physics
TOPIC 8 Temperature and Heat.pdf physicsTOPIC 8 Temperature and Heat.pdf physics
TOPIC 8 Temperature and Heat.pdf physics
 
BUMI DAN ANTARIKSA PROJEK IPAS SMK KELAS X.pdf
BUMI DAN ANTARIKSA PROJEK IPAS SMK KELAS X.pdfBUMI DAN ANTARIKSA PROJEK IPAS SMK KELAS X.pdf
BUMI DAN ANTARIKSA PROJEK IPAS SMK KELAS X.pdf
 
BIOETHICS IN RECOMBINANT DNA TECHNOLOGY.
BIOETHICS IN RECOMBINANT DNA TECHNOLOGY.BIOETHICS IN RECOMBINANT DNA TECHNOLOGY.
BIOETHICS IN RECOMBINANT DNA TECHNOLOGY.
 
Vision and reflection on Mining Software Repositories research in 2024
Vision and reflection on Mining Software Repositories research in 2024Vision and reflection on Mining Software Repositories research in 2024
Vision and reflection on Mining Software Repositories research in 2024
 
GenBio2 - Lesson 1 - Introduction to Genetics.pptx
GenBio2 - Lesson 1 - Introduction to Genetics.pptxGenBio2 - Lesson 1 - Introduction to Genetics.pptx
GenBio2 - Lesson 1 - Introduction to Genetics.pptx
 
Bentham & Hooker's Classification. along with the merits and demerits of the ...
Bentham & Hooker's Classification. along with the merits and demerits of the ...Bentham & Hooker's Classification. along with the merits and demerits of the ...
Bentham & Hooker's Classification. along with the merits and demerits of the ...
 
(9818099198) Call Girls In Noida Sector 14 (NOIDA ESCORTS)
(9818099198) Call Girls In Noida Sector 14 (NOIDA ESCORTS)(9818099198) Call Girls In Noida Sector 14 (NOIDA ESCORTS)
(9818099198) Call Girls In Noida Sector 14 (NOIDA ESCORTS)
 
Call Us ≽ 9953322196 ≼ Call Girls In Lajpat Nagar (Delhi) |
Call Us ≽ 9953322196 ≼ Call Girls In Lajpat Nagar (Delhi) |Call Us ≽ 9953322196 ≼ Call Girls In Lajpat Nagar (Delhi) |
Call Us ≽ 9953322196 ≼ Call Girls In Lajpat Nagar (Delhi) |
 
The dark energy paradox leads to a new structure of spacetime.pptx
The dark energy paradox leads to a new structure of spacetime.pptxThe dark energy paradox leads to a new structure of spacetime.pptx
The dark energy paradox leads to a new structure of spacetime.pptx
 
Call Girls in Munirka Delhi 💯Call Us 🔝9953322196🔝 💯Escort.
Call Girls in Munirka Delhi 💯Call Us 🔝9953322196🔝 💯Escort.Call Girls in Munirka Delhi 💯Call Us 🔝9953322196🔝 💯Escort.
Call Girls in Munirka Delhi 💯Call Us 🔝9953322196🔝 💯Escort.
 
Solution chemistry, Moral and Normal solutions
Solution chemistry, Moral and Normal solutionsSolution chemistry, Moral and Normal solutions
Solution chemistry, Moral and Normal solutions
 
Analytical Profile of Coleus Forskohlii | Forskolin .pptx
Analytical Profile of Coleus Forskohlii | Forskolin .pptxAnalytical Profile of Coleus Forskohlii | Forskolin .pptx
Analytical Profile of Coleus Forskohlii | Forskolin .pptx
 
Recombinant DNA technology( Transgenic plant and animal)
Recombinant DNA technology( Transgenic plant and animal)Recombinant DNA technology( Transgenic plant and animal)
Recombinant DNA technology( Transgenic plant and animal)
 
Engler and Prantl system of classification in plant taxonomy
Engler and Prantl system of classification in plant taxonomyEngler and Prantl system of classification in plant taxonomy
Engler and Prantl system of classification in plant taxonomy
 
Pests of jatropha_Bionomics_identification_Dr.UPR.pdf
Pests of jatropha_Bionomics_identification_Dr.UPR.pdfPests of jatropha_Bionomics_identification_Dr.UPR.pdf
Pests of jatropha_Bionomics_identification_Dr.UPR.pdf
 
Call Girls in Munirka Delhi 💯Call Us 🔝8264348440🔝
Call Girls in Munirka Delhi 💯Call Us 🔝8264348440🔝Call Girls in Munirka Delhi 💯Call Us 🔝8264348440🔝
Call Girls in Munirka Delhi 💯Call Us 🔝8264348440🔝
 

Two component system

  • 2. Lead Silver(Pb-Ag) System. Potassium IodideWater(KI-H2O) System. Ferric Chloride Water(FeCl3-H2O) System.
  • 3. Some important terms …  Phase.  Components.  Degree of freedom.  Homogeneous system.  Heterogeneous system.  Phase rule.  Significance of phase rule.  Limitations of phase rule.  Phase diagram.  Eutectic system.  Eutectic point.
  • 4. Phase (P): • “A phase is defined as any homogeneous physically distinct and mechanically separable portion of heterogeneous system in equilibrium. “ • Examples: • A gas mixture constituents a single phase (p = 1). Since gases are completely miscible. • Immiscible liquids constitute different phases. Thus carbon tetra chloride (CCl4) is immiscible in water (H2O). • For this system p =2. • Miscible liquids constitute a single phase. Thus alcohol is immiscible in water (H2O). • For this system p =1.
  • 5. Components (C): “The number of components of a system at equilibrium is defined as the smallest number of independent constituents by means of which composition of each phase can be expressed directly (or) in terms of chemical equation.” For a system, Number of components = (number of chemical species) – (number of independent equations). C = N –E
  • 6. Examples: KCl-NaBr-H2O system ; C=4 KCl + NaBr ⇌ NaCl + KBr Number of chemical species , N =5(KCl,NaBr,H2O,NaCl,KBr) Number of independent equations is E=1. C = 5-1 = 4. KCl-NaCl-H2O system ; C=3 Since there is no equation (E=0), N=3. Ice ⇌ water ⇌ water vapor H2O H2O H2O C=1.
  • 7. Degrees of freedom (F): The number of independent variables such as temperature, pressure, concentration which must be specified in order to define the system completely.” If F = 0, then system is known as invariant system. If F = 1, then system is known as uni variant (or) mono variant system. If F = 2, then system is known as bi variant (or) di variant system. If F = 3, then system is known as tri variant system.
  • 8. Examples : PV = nRT (for ideal gas) P = RT/V (or) p = CRT Here P, C, T‘s are intensive variables. If ‘P’and ‘T’are fixed, then the volume (V) will have a definite value. For a pure gas, F = 2 F = C – P + 2 = 1 – 1 + 2 = 2 (C = 1, p = 1), Bi variant. For a gaseous system consisting of two gases, F = 3. F = 2 -1 + 2 = 3, Tri variant.
  • 9. Homogeneous system: It is a system, which is uniform through out in physical and chemical properties. Ex: the solution of NaCl in water is homogeneous system. Heterogeneous system: It is a system which consists of parts with different physical & chemical properties. Ex: the ice - water - water vapor system is a heterogeneous system. Because there are portions which physically distinct and mechanically separable from one another.
  • 10. Phase rule:A rule relating the possible no of phases, constituents & degrees of freedom in a chemical system.(F=C-P+2) by Gibbs. • The phase rule at equilibrium is depend only on • temperature, • pressure and concentration variations • and is not influenced by • gravity, • surface forces, • electrical and magnetic forces, • then the number of degrees of freedom (F) exceeds the difference of number of components (C) and the number of phases(P) by 2.
  • 11. Significance of phase rule:  Phase rule is applicable both physical & chemical equilibria.  Phase rule is applicable to microscopic systems.  We can conveniently classify equilibrium states in terms of phases, components and degrees of freedom.  The behavior of system can be predicted under different conditions.  According to phase rule, different systems behave similarly if they have same degrees of freedom.
  • 12. Limitations of phase rule: • Phase rule is applicable only for those systems which are in equilibrium. • Only three degrees of freedom namely temperature, pressure and composition are allowed to influence the equilibrium systems. • Under the same conditions of temperature and pressure all the phases of the system must be present. • It considers only the number of phases rather than their amounts.
  • 13. Phase diagrams: When a system goes from one phase to another phase, without change of chemical composition is known as “phase Transition.” Examples:  Melting (solid to liquid).  Boiling (liquid to gas).  Condensation (gas to liquid). A diagram which illustrates the conditions of equilibrium between various phases of a substance is called a “phase diagram.”
  • 14. Two component system: In a system of two components, when p = 1 F = C – p + 2 = 2 -1 +2 =3 • This means that three variables must be specified in order to describe the condition of the phase. Ex: Ag – Pb system.
  • 15. Eutectic system: A binary system in which two components are miscible in all proportions in the liquid state, but do not react chemically and each component has the property of lowering each others melting point is known as eutectic (easy to melt)system. A solid solution of a two component system which has the lowest freezing point of all the possible mixture of the component is known as “Eutectic mixture”. And the minimum freezing point of the eutectic mixture is known as “Eutectic point”.
  • 17. Lead Silver (Pb-Ag) System:  L(327°C) is the melting point of Pb.  Addition of Ag lowers the melting point of Pb and LM is the melting point curve of Pb in the presence silver.  Along LM, solid Pb and the melt are in equilibrium.  Point N(961°C) represents the melting point of Ag.  Its melting point is lowered by the addition of Pb along the curve NM.  Hence NM is the melting point curve of Ag in the presence of Pb.  Along NM solid silver is in equilibrium with the melt.  The system along LM or NM is monovariant.  The curves LM & NM intersects at M, where three phases solid Pb, solid Ag & melt are in equilibrium.
  • 18. Lead Silver (Pb-Ag) System:  The system is invariant and M represents the eutectic point.(303°C, 2.6% Ag by mass)
  • 20. KI-H20 System:  L(0°C) is the freezing point of water and is lowered by the addition of salt(KI).  Hence after addition of salt(KI), LM is the freezing point of water in the presence of KI.  Along LM ice separates out from the solution and system is monovarient.  NM is the solubility curve of KI.  M Pt of KI cannot be realized in this phase diagram because it has high M Pt as compared to critical temperature of H20.  From slope of the curve it reveals that the solubility of KI increases with the rise in temperature.  At M where LM & NM meet, three phases(ice, solid KI & solution) are in equilibrium, the system is invariant.  M is the eutectic point(-23°C, 52%KI by mass).
  • 21. KI-H20 System:  In case of system involving salt & water, the eutectic point is generally known as cryohydric point.  The temperature at M is the cryohydric temperature.  Solution of composition M is the cryohydric solution.  For such systems the lowest temperature that can be attained is the cryohydric temperature and it is the characteristic of each system.
  • 23. Ferric Chloride Water(FeCl3-H2O) System:  In this system four congruently melting compounds are formed which are, • dodecahydrate(Fe2Cl6.12H2O) • heptahydrate(Fe2Cl6.7H2O) • pentahydrate (Fe2Cl6.5H2O) • tetrahydrate(Fe2Cl6.4H2O).  The phase diagram consists of four maxima corresponding to the formation of these hydrates.  Points N,P,R,T represents the congruent melting points of dodeca,hepta,penta and tetra hydrates respectively.  The congruent melting point of a salt hydrate is also known as the dystectic point.
  • 24. Ferric Chloride Water(FeCl3-H2O) System:  There are five cryohydric points at M,O,Q,S and U.  L is the melting point of ice.  Addition of Fe2Cl6 lowers the melting point along LM.  At the cryohydric point M the solution becomes saturated w.r.t dodecahydrate and represents the lowest temperature that can be attained with this system.  Curves MNO,OPQ,QRS and STU represents the solubilities of dodeca,hepta,penta and tetra respectively while UV represents the solubility characteristic of the anhydrous salt.  In the diagram the solubility of each hydrate increases with the rise of temperature.
  • 25. Ferric Chloride Water(FeCl3-H2O) System:  Now consider the phase changes that result when an unsaturated solution represented by point k is concentrated isothermally by adding anhydrous ferric chloride along ku.  Firstly a saturated solution of dodecahydrate results at l.  At m the whole mass solidifies to form dodecahydrate which melts when more of ferric chloride is added.  Dodecahydrate disappears beyond n and between n and o an unsaturated solution exists.  The solution becomes saturated with respect to heptahydrate at o.
  • 26. Ferric Chloride Water(FeCl3-H2O) System:  Further addition of ferric chloride increases the amount of solid heptahydrate in the solution and at p the whole solutions solidifies yielding heptahydrate.  The heptahydrate persists upto q.  Between q and r the solution remains unsaturated, at r the pentahydrate begins to crystallize out.  At s solidification of whole mass into pentahydrate occurs.  Between s and t a mixture of penta and tetrahydrate exists which is completely converted into tetrahydrate at t, beyond which tetrahydrate decomposes into anhydrous ferric chloride and at u only the anhydrous salt remains.