Packet
... Given the following reactants predict the products. Add if the reactions are classified as Acid-Base in addition to the other classifications. ...
... Given the following reactants predict the products. Add if the reactions are classified as Acid-Base in addition to the other classifications. ...
Thermochemistry
... (Units: Joules (J), kJ, kJ/mol) Temperature (T) is the measure of the average kinetic energy (energy of motion) of the particles in a sample of matter ...
... (Units: Joules (J), kJ, kJ/mol) Temperature (T) is the measure of the average kinetic energy (energy of motion) of the particles in a sample of matter ...
sch3u unit 1 test: matter
... 9. When fluorine forms an ionic bond it tends to a. lose electrons b. gain electrons c. share electrons d. lose protons 10. Copper (II) hydroxide is composed of a. 2 elements, 2 atoms b. 2 elements, 3 atoms c. 3 elements, 4 atoms d. 3 elements, 5 atoms ...
... 9. When fluorine forms an ionic bond it tends to a. lose electrons b. gain electrons c. share electrons d. lose protons 10. Copper (II) hydroxide is composed of a. 2 elements, 2 atoms b. 2 elements, 3 atoms c. 3 elements, 4 atoms d. 3 elements, 5 atoms ...
Review Package
... Types of atoms involved Types of bond (ionic or covalent) Electrons (shared or transferred) Dissolve in water (yes or no) Conducts electricity Example: ...
... Types of atoms involved Types of bond (ionic or covalent) Electrons (shared or transferred) Dissolve in water (yes or no) Conducts electricity Example: ...
Chapter 16 Handout
... The ____________________of gases in an equilibrium mixture can be changed by increasing or decreasing the ____________________of the container while keeping the temperature constant. In general the effect of a change in ____________________, by changing the container volume, depends on the relative ...
... The ____________________of gases in an equilibrium mixture can be changed by increasing or decreasing the ____________________of the container while keeping the temperature constant. In general the effect of a change in ____________________, by changing the container volume, depends on the relative ...
classification of matter - St. Thomas the Apostle School
... shape, or state of matter • Substance does not change identity when it undergoes a physical change • Distillation is a process for separating a mixture by evaporating a liquid and condensing its vapor. ...
... shape, or state of matter • Substance does not change identity when it undergoes a physical change • Distillation is a process for separating a mixture by evaporating a liquid and condensing its vapor. ...
Thermodynamics and the aims of statistical mechanics
... (This law also captures systems in thermal contact with other systems, since all the systems together can eventually be considered isolated.) In simple systems, for example an enclosed gas, an equilibrium state is uniquely specified by the deformation variables pressure, p, and volume, V . We can th ...
... (This law also captures systems in thermal contact with other systems, since all the systems together can eventually be considered isolated.) In simple systems, for example an enclosed gas, an equilibrium state is uniquely specified by the deformation variables pressure, p, and volume, V . We can th ...
Review 3
... You should carefully study the material that is provided on these Review Sheets. However, it is always wise to also study the following: a) The notes that were given during class presentations. b) All sample and practice problems throughout the chapters. c) All key terms from the designated chapters ...
... You should carefully study the material that is provided on these Review Sheets. However, it is always wise to also study the following: a) The notes that were given during class presentations. b) All sample and practice problems throughout the chapters. c) All key terms from the designated chapters ...
Thermochemistry
... container can be characterized by several important properties. Which properties are important? How are these properties similar to ∆E? Define Enthalpy. ...
... container can be characterized by several important properties. Which properties are important? How are these properties similar to ∆E? Define Enthalpy. ...
c - Iust personal webpages
... has a value of ΔH of –238.7 kJ. We can treat ΔHf° values as though they were absolute enthalpies, to determine enthalpy changes for reactions. Question: What is ΔHf° for an element in its standard state [such as O2(g)]? Hint: since the reactants are the same as the products … ...
... has a value of ΔH of –238.7 kJ. We can treat ΔHf° values as though they were absolute enthalpies, to determine enthalpy changes for reactions. Question: What is ΔHf° for an element in its standard state [such as O2(g)]? Hint: since the reactants are the same as the products … ...
Catalysis and Catalyst
... Catalyst is a substance that increases the rate of the reaction at which a chemical system approaches equilibrium , without being substantially consumed in the process. ...
... Catalyst is a substance that increases the rate of the reaction at which a chemical system approaches equilibrium , without being substantially consumed in the process. ...
Microsoft Word format
... Students learn to differentiate the physical and chemical properties of substances, classify processes as physical or chemical changes, and learn that mass is conserved in chemical reactions. The observations include separation of iron and sulfur with a magnet, separation of sand and salt by dissolu ...
... Students learn to differentiate the physical and chemical properties of substances, classify processes as physical or chemical changes, and learn that mass is conserved in chemical reactions. The observations include separation of iron and sulfur with a magnet, separation of sand and salt by dissolu ...
First Law of Thermodynamics
... thermodynamic quantities are state functions. State of a single phase of fixed composition is characterized by any two of P, V and T. Any quantity that depend on the path it takes to move from stage 1 to stage 2 is a path function; q and w are path functions. ...
... thermodynamic quantities are state functions. State of a single phase of fixed composition is characterized by any two of P, V and T. Any quantity that depend on the path it takes to move from stage 1 to stage 2 is a path function; q and w are path functions. ...
LECTURE 5 - CHEMICAL EQUILIBRIUM
... increasing [C] and [D]. When the right side is equal to the original value, the system is again at equilibrium. If more C had been added to the original system, exactly the reverse would have occurred - the reaction would have gone to the left, reducing [C] and [D] and increasing [A] and [B]. The di ...
... increasing [C] and [D]. When the right side is equal to the original value, the system is again at equilibrium. If more C had been added to the original system, exactly the reverse would have occurred - the reaction would have gone to the left, reducing [C] and [D] and increasing [A] and [B]. The di ...
PP - Columbia University
... same standard reaction conditions that we all agree to, independent of concentrations. So it allows a comparison of the stabilities of the bonds in the reactants vs. the products. It is useful. ...
... same standard reaction conditions that we all agree to, independent of concentrations. So it allows a comparison of the stabilities of the bonds in the reactants vs. the products. It is useful. ...
Chemical Thermodynamics presentation 1
... the system changes in such a way that the system and surroundings can be put back in their original states by exactly reversing the process. ...
... the system changes in such a way that the system and surroundings can be put back in their original states by exactly reversing the process. ...
Chemical thermodynamics
Chemical thermodynamics is the study of the interrelation of heat and work with chemical reactions or with physical changes of state within the confines of the laws of thermodynamics. Chemical thermodynamics involves not only laboratory measurements of various thermodynamic properties, but also the application of mathematical methods to the study of chemical questions and the spontaneity of processes.The structure of chemical thermodynamics is based on the first two laws of thermodynamics. Starting from the first and second laws of thermodynamics, four equations called the ""fundamental equations of Gibbs"" can be derived. From these four, a multitude of equations, relating the thermodynamic properties of the thermodynamic system can be derived using relatively simple mathematics. This outlines the mathematical framework of chemical thermodynamics.