SC72 1st semester Study Guide
... 11. How much heat is required to raise 151 grams of water from 21.0°C to boiling, to make a cup of tea? ...
... 11. How much heat is required to raise 151 grams of water from 21.0°C to boiling, to make a cup of tea? ...
Exam 1
... CHM136 Exam 1Review Sheet Exam 1 will cover chapters 6 and 5 in the Tro text. The topics from each chapter that may appear on the exam are listed below briefly. Following that there are several example problems that you can solve as practice in preparation for the exam. The answers to all the questi ...
... CHM136 Exam 1Review Sheet Exam 1 will cover chapters 6 and 5 in the Tro text. The topics from each chapter that may appear on the exam are listed below briefly. Following that there are several example problems that you can solve as practice in preparation for the exam. The answers to all the questi ...
Chemistry Review2
... In an equation: 2Ag+ + Cu Cu+2 + 2 Ag, so Cu Cu+2 + 2e- (LEO)& 2Ag+ + 2e- 2Ag(GER) Note: single replacement reactions only produce products when the single metal in the reactant is more active than the metal in the compound in the reactant. 1.In the equation: Fe + CuSO4 predict products, bala ...
... In an equation: 2Ag+ + Cu Cu+2 + 2 Ag, so Cu Cu+2 + 2e- (LEO)& 2Ag+ + 2e- 2Ag(GER) Note: single replacement reactions only produce products when the single metal in the reactant is more active than the metal in the compound in the reactant. 1.In the equation: Fe + CuSO4 predict products, bala ...
Lesson Plans - University High School
... differentiate among the four states of matter in terms of particle distance, particle motion, and definite/indefinite shapes and volumes describe temperature as a measure of the average kinetic energy of the particles in a substance describe matter at absolute zero (0 K) apply kinetic-molecular theo ...
... differentiate among the four states of matter in terms of particle distance, particle motion, and definite/indefinite shapes and volumes describe temperature as a measure of the average kinetic energy of the particles in a substance describe matter at absolute zero (0 K) apply kinetic-molecular theo ...
Practice sheet #8: thermodynamics.
... 9. Summary problem: Methanol as a gasoline substitute. This problem is designed to summarize the whole Chapter, if you can solve it, you have properly understood and mastered chapter 6.. Methanol (CH3OH) is used as a substitute for gasoline in certain high-performance vehicles. To design engines tha ...
... 9. Summary problem: Methanol as a gasoline substitute. This problem is designed to summarize the whole Chapter, if you can solve it, you have properly understood and mastered chapter 6.. Methanol (CH3OH) is used as a substitute for gasoline in certain high-performance vehicles. To design engines tha ...
Test 1
... Specific Heat Capacity - The amount of heat required to raise the temperature of one gram of material by 1oC (or 1K). Bomb Calorimeter - A calorimeter that is made of steel so its volume does not change. It is used to measure the ÄU of a reaction, since heat measured at a constant volume equals ÄU. ...
... Specific Heat Capacity - The amount of heat required to raise the temperature of one gram of material by 1oC (or 1K). Bomb Calorimeter - A calorimeter that is made of steel so its volume does not change. It is used to measure the ÄU of a reaction, since heat measured at a constant volume equals ÄU. ...
Final Exam Review- no solutions
... a. SO3 b. PO4 3c. Cr2O7 2d. HClO2 9. Use the changes in oxidation numbers to determine which elements are oxidized and which are reduced in these reactions. (Note: it is not necessary to use balanced equations) a. C + H2SO4 CO2 + SO2 + H2O b. HNO3 + HI NO + I2 + H2O c. KMnO4 + HCl MnCl2 + Cl2 ...
... a. SO3 b. PO4 3c. Cr2O7 2d. HClO2 9. Use the changes in oxidation numbers to determine which elements are oxidized and which are reduced in these reactions. (Note: it is not necessary to use balanced equations) a. C + H2SO4 CO2 + SO2 + H2O b. HNO3 + HI NO + I2 + H2O c. KMnO4 + HCl MnCl2 + Cl2 ...
Final Review
... c. 22.4 liters d. It depends on the gas since all gases have different densities 5. Which of the following is NOT true at STP conditions? a. Temperature is at 0°C and pressure is at 1 atm b. Temperature is at 273 K and pressure is at 760 mmHg c. The volume of 1 mol of He gas is 22.4 L d. The volume ...
... c. 22.4 liters d. It depends on the gas since all gases have different densities 5. Which of the following is NOT true at STP conditions? a. Temperature is at 0°C and pressure is at 1 atm b. Temperature is at 273 K and pressure is at 760 mmHg c. The volume of 1 mol of He gas is 22.4 L d. The volume ...
Quiz Review Name Period 1. What is the equation that
... 12. Identify the name of the phase change. a. Br2 (l) Br2 (s) b. NH3 (l) NH3 (g) c. H2O (s) H2O (l) d. I2 (s) I2 (g) e. H2O (g) H2O (l) f. CO2 (g) CO2 (s) 13. Which phase change results in release of energy? a. Br2 (l) Br2 (s) b. I2 (s) I2 (g) c. H2O (s) H2O (l) d. NH3 (l) NH3 ( ...
... 12. Identify the name of the phase change. a. Br2 (l) Br2 (s) b. NH3 (l) NH3 (g) c. H2O (s) H2O (l) d. I2 (s) I2 (g) e. H2O (g) H2O (l) f. CO2 (g) CO2 (s) 13. Which phase change results in release of energy? a. Br2 (l) Br2 (s) b. I2 (s) I2 (g) c. H2O (s) H2O (l) d. NH3 (l) NH3 ( ...
Chemical Questions
... • So if we cool the molecules, they will lose energy. This is the energy used to expand the water vapor. So as the water vapor passes through the nozzle, its temp drops as it expands. And the temp drop is sufficient to cause the formation of snow. ...
... • So if we cool the molecules, they will lose energy. This is the energy used to expand the water vapor. So as the water vapor passes through the nozzle, its temp drops as it expands. And the temp drop is sufficient to cause the formation of snow. ...
Sample Test 2 Part2
... and the product is discharged with 3% water per kg dry solid. The entering air is at 107 C and an absolute humidity of 0.007 kg/kg. The solid feed enters at 21 C and leaves at 36 C. The air leaves at 37 C. Allow a radiation heat loss of 25 kJ/kg of dry air. Calculate • mass of air passing through dr ...
... and the product is discharged with 3% water per kg dry solid. The entering air is at 107 C and an absolute humidity of 0.007 kg/kg. The solid feed enters at 21 C and leaves at 36 C. The air leaves at 37 C. Allow a radiation heat loss of 25 kJ/kg of dry air. Calculate • mass of air passing through dr ...
Second review [Compatibility Mode]
... How much ethane would need to be burned to heat 100 g of water by 10 K? 2C2H6(g) + 7O2(g) → 4CO2(g) + 6H2O(l) ...
... How much ethane would need to be burned to heat 100 g of water by 10 K? 2C2H6(g) + 7O2(g) → 4CO2(g) + 6H2O(l) ...
Production of stable isotopes by membrane method
... apparatus, equipped with PTFE flat sheet membranes. The experiments showed the membrane process is characterized by higher separation factors than distillation of water. Since distillation is now the only commercial method for heavy oxygen production the proposed process has particular importance. I ...
... apparatus, equipped with PTFE flat sheet membranes. The experiments showed the membrane process is characterized by higher separation factors than distillation of water. Since distillation is now the only commercial method for heavy oxygen production the proposed process has particular importance. I ...
Calorimetry Key - Iowa State University
... 3. When H2 (g) and O2 (g) react to form H2O (l), heat is released to the surroundings. Consider the reverse reaction, namely, the formation of H2 (g) and O2 (g) from H2O (l). a. Is this reaction exothermic or endothermic? (Circle one) 4. Given the following information, circle the term that best com ...
... 3. When H2 (g) and O2 (g) react to form H2O (l), heat is released to the surroundings. Consider the reverse reaction, namely, the formation of H2 (g) and O2 (g) from H2O (l). a. Is this reaction exothermic or endothermic? (Circle one) 4. Given the following information, circle the term that best com ...
بسم الله الرحمن الرحيم
... 1 – A mixture of a gas in a gas can only form a solution 2 – Enthalpy is the heat of reaction at constant pressure 3 – The solute particles can be seperated from colloides by filtration 4 – Potential energy equals m . g . h 5 – Molarity is an intensive property. 6 – There are 3 significant figures i ...
... 1 – A mixture of a gas in a gas can only form a solution 2 – Enthalpy is the heat of reaction at constant pressure 3 – The solute particles can be seperated from colloides by filtration 4 – Potential energy equals m . g . h 5 – Molarity is an intensive property. 6 – There are 3 significant figures i ...
Energy
... Some Heat Exchange Terms specific heat capacity heat capacity per gram = J/°C g or J/K g molar heat capacity heat capacity per mole = J/°C mol or J/K mol ...
... Some Heat Exchange Terms specific heat capacity heat capacity per gram = J/°C g or J/K g molar heat capacity heat capacity per mole = J/°C mol or J/K mol ...
Ch1-2
... --------------------------------------------------------------------------------------------------If the dilute solution contains N ideal solutes then ...
... --------------------------------------------------------------------------------------------------If the dilute solution contains N ideal solutes then ...
Sample Exam 1
... Sample Exam #1 Part One: Multiple Choice – circle one answer only. 1. When methane is burned with oxygen, the products are carbon dioxide and water. If you produce 36 g of water and 44 grams of carbon dioxide from 16 grams of methane, how many grams of oxygen were needed for the reaction? a) 64 g b) ...
... Sample Exam #1 Part One: Multiple Choice – circle one answer only. 1. When methane is burned with oxygen, the products are carbon dioxide and water. If you produce 36 g of water and 44 grams of carbon dioxide from 16 grams of methane, how many grams of oxygen were needed for the reaction? a) 64 g b) ...
Unit 3: States of Matter Review
... 14. Calculate the heat absorbed when 20g of ice is heated from -25°C to water at 50°C. 15. How many joules of heat must be removed to change 520 g of water from liquid to solid? 16. What is the total heat removed when 520 g water cools from 20°C to 0°C and then freezes at 0°C? 17. It takes 4920 J t ...
... 14. Calculate the heat absorbed when 20g of ice is heated from -25°C to water at 50°C. 15. How many joules of heat must be removed to change 520 g of water from liquid to solid? 16. What is the total heat removed when 520 g water cools from 20°C to 0°C and then freezes at 0°C? 17. It takes 4920 J t ...
Vocabulary
... • A Measure of the average kinetic energy of particles in matter; temperature determines the direction of heat transfer ...
... • A Measure of the average kinetic energy of particles in matter; temperature determines the direction of heat transfer ...
Reactive polymer membrane for water disinfection and - ICTP-CSIC
... An industrial partner interested in manufacturing this membrane under a license agreement for its application in industrial water treatment plants is sought. Improved biocidal effect at high flux The invention is related to a porous polymer membrane consisting in a matrix of polyvinylidene fluoride ...
... An industrial partner interested in manufacturing this membrane under a license agreement for its application in industrial water treatment plants is sought. Improved biocidal effect at high flux The invention is related to a porous polymer membrane consisting in a matrix of polyvinylidene fluoride ...
Membrane distillation
Membrane distillation is a thermally driven separational programm in which separation is enabled due to phase change. A hydrophobic membrane displays a barrier for the liquid phase, allowing the vapour phase (e.g. water vapour) pass through the membrane's pores. The driving force of the process is given by a partial vapour pressure difference commonly triggered by a temperature difference.