Chemical Equilibrium
... • For example, PbI2 is less soluble in an aqueous solution of NaI than in pure water. • Because the common ion I– is already present in the NaI solution. It reduces the maximum possible concentration of Pb2+ and thus reduces the solubility of PbI2. ...
... • For example, PbI2 is less soluble in an aqueous solution of NaI than in pure water. • Because the common ion I– is already present in the NaI solution. It reduces the maximum possible concentration of Pb2+ and thus reduces the solubility of PbI2. ...
Student Review Packet
... Similar concentrations of a weak acid and its conjugate base -orSimilar concentrations of a weak base and its conjugate acid If these concentrations are large in comparison to SMALL amounts of added acid or base, equilibrium will be shifted slightly and the pH change resisted. Consider: HA H+ + A- ...
... Similar concentrations of a weak acid and its conjugate base -orSimilar concentrations of a weak base and its conjugate acid If these concentrations are large in comparison to SMALL amounts of added acid or base, equilibrium will be shifted slightly and the pH change resisted. Consider: HA H+ + A- ...
North Carolina Test of Physical Science
... Department of Public Instruction Division of Accountability Services/North Carolina Testing Program Raleigh, North Carolina 27699-6314 ...
... Department of Public Instruction Division of Accountability Services/North Carolina Testing Program Raleigh, North Carolina 27699-6314 ...
Chemical Equations
... equations are "in" mole units by default, which is why we must always convert amounts such as grams or kilograms to moles when using a chemical equation in calculations. ...
... equations are "in" mole units by default, which is why we must always convert amounts such as grams or kilograms to moles when using a chemical equation in calculations. ...
Surface chemistry and Catalysis
... layer adsorption. In BET it is assumed that the solid surface possesses uniform, localized sites and adsorption at one site does not affect adsorption at neighboring sites . It is further assumed that the molecule can be adsorbed in second, third…and nth layer, the surface area available for the nth ...
... layer adsorption. In BET it is assumed that the solid surface possesses uniform, localized sites and adsorption at one site does not affect adsorption at neighboring sites . It is further assumed that the molecule can be adsorbed in second, third…and nth layer, the surface area available for the nth ...
Scoring Guidelines - AP Central
... Bond energy (B.E.) of reactants is greater than bond energy of products. Reaction is endothermic, so more energy is required to break bonds of reactants than is given off when new bonds form in products: ∆H = ∑(B.E.)reactants – ∑(B.E.)products > 0 ...
... Bond energy (B.E.) of reactants is greater than bond energy of products. Reaction is endothermic, so more energy is required to break bonds of reactants than is given off when new bonds form in products: ∆H = ∑(B.E.)reactants – ∑(B.E.)products > 0 ...
CFE Higher Chemistry in Society Homework EB
... I know that molar volume is the same for ALL gases at the same temperature and pressure. ...
... I know that molar volume is the same for ALL gases at the same temperature and pressure. ...
Cumulative Review, entire quarter
... First make sure the compounds have valid formulas (to start with, we will only use correct formulas, which are given). 1) No changes in the formulas of the compounds can be made. This would result in a different chemical reaction, if the new formulas are valid compounds. Do not change the subscripts ...
... First make sure the compounds have valid formulas (to start with, we will only use correct formulas, which are given). 1) No changes in the formulas of the compounds can be made. This would result in a different chemical reaction, if the new formulas are valid compounds. Do not change the subscripts ...
Redox Reactions - KFUPM Faculty List
... Oxidation-reduction reactions (sometimes called redox reactions)) are reactions involvingg the transfer of one electron or more from one reactant to another. Redox reaction also involves the change in oxidation states for molecules. These reactions are very common in life: • Photosynthesis. (convers ...
... Oxidation-reduction reactions (sometimes called redox reactions)) are reactions involvingg the transfer of one electron or more from one reactant to another. Redox reaction also involves the change in oxidation states for molecules. These reactions are very common in life: • Photosynthesis. (convers ...
Unit 3 Homework Booklet
... In an experiment the burning of 0.980g of ethanol resulted in the temperature of 400cm 3 of water rising from 14.2oC to 31.6oC. Use this information to calculate the enthalpy of combustion of ethanol. ...
... In an experiment the burning of 0.980g of ethanol resulted in the temperature of 400cm 3 of water rising from 14.2oC to 31.6oC. Use this information to calculate the enthalpy of combustion of ethanol. ...
Homo-coupling of terminal alkynes on a noble metal surface
... are rendered with the same colour code. The characteristic outline, the smooth connection via the thinner waist, as well as the slightly brighter benzene rings compared to the waist, all agree well with the simulation. We furthermore analysed the small regular dimer patch depicted in Fig. 3c. With ...
... are rendered with the same colour code. The characteristic outline, the smooth connection via the thinner waist, as well as the slightly brighter benzene rings compared to the waist, all agree well with the simulation. We furthermore analysed the small regular dimer patch depicted in Fig. 3c. With ...
Transition state theory
Transition state theory (TST) explains the reaction rates of elementary chemical reactions. The theory assumes a special type of chemical equilibrium (quasi-equilibrium) between reactants and activated transition state complexes.TST is used primarily to understand qualitatively how chemical reactions take place. TST has been less successful in its original goal of calculating absolute reaction rate constants because the calculation of absolute reaction rates requires precise knowledge of potential energy surfaces, but it has been successful in calculating the standard enthalpy of activation (Δ‡Hɵ), the standard entropy of activation (Δ‡Sɵ), and the standard Gibbs energy of activation (Δ‡Gɵ) for a particular reaction if its rate constant has been experimentally determined. (The ‡ notation refers to the value of interest at the transition state.)This theory was developed simultaneously in 1935 by Henry Eyring, then at Princeton University, and by Meredith Gwynne Evans and Michael Polanyi of the University of Manchester. TST is also referred to as ""activated-complex theory,"" ""absolute-rate theory,"" and ""theory of absolute reaction rates.""Before the development of TST, the Arrhenius rate law was widely used to determine energies for the reaction barrier. The Arrhenius equation derives from empirical observations and ignores any mechanistic considerations, such as whether one or more reactive intermediates are involved in the conversion of a reactant to a product. Therefore, further development was necessary to understand the two parameters associated with this law, the pre-exponential factor (A) and the activation energy (Ea). TST, which led to the Eyring equation, successfully addresses these two issues; however, 46 years elapsed between the publication of the Arrhenius rate law, in 1889, and the Eyring equation derived from TST, in 1935. During that period, many scientists and researchers contributed significantly to the development of the theory.