Unit 1: Basic Chemistry for Biology QUIZ STUDY GUIDE Things to
... -Be able to recognize whether an equation is balanced or not. -Be able to balance an equation that is unbalanced. ...
... -Be able to recognize whether an equation is balanced or not. -Be able to balance an equation that is unbalanced. ...
Chemical change is a process that involves recombining atoms and
... is carefully collected and placed on a scale, its mass is 39.0g. How can it weigh 16g more?? How does this make sense?? ...
... is carefully collected and placed on a scale, its mass is 39.0g. How can it weigh 16g more?? How does this make sense?? ...
高雄醫學大學九十二學年度學士後醫學系招生考試試題 科目:化學 考試
... (A) –6.5 kJ/mol (B) –13 kJ/mol (C) –19.5 kJ/mol (D) –26 kJ/mol (E) –39 kJ/mol 24. Caffeine consists of carbon, hydrogen, oxygen, and nitrogen. When 0.1920 g of caffeine is burned in an excess of oxygen, 0.3482 g of carbon dioxide and 0.0891 g water are formed. Caffeine is 28.84% nitrogen by mass. It ...
... (A) –6.5 kJ/mol (B) –13 kJ/mol (C) –19.5 kJ/mol (D) –26 kJ/mol (E) –39 kJ/mol 24. Caffeine consists of carbon, hydrogen, oxygen, and nitrogen. When 0.1920 g of caffeine is burned in an excess of oxygen, 0.3482 g of carbon dioxide and 0.0891 g water are formed. Caffeine is 28.84% nitrogen by mass. It ...
Chapter 9 Stoichiometry
... produced based on the limiting reactant. If everything in the reaction went according to plan, and all of the reactant(s) reacted, this is how much product should be made. This is NOT the same as the actual yield- amount that is produced based on an experiment Error occurs, so actual yield is ...
... produced based on the limiting reactant. If everything in the reaction went according to plan, and all of the reactant(s) reacted, this is how much product should be made. This is NOT the same as the actual yield- amount that is produced based on an experiment Error occurs, so actual yield is ...
Chapter 9: Energy and Chemistry
... w = -113 J in a one step expansion of gas: – When expansion is done to get maximum work w = -151 J in a reversibly expansion of gas: ...
... w = -113 J in a one step expansion of gas: – When expansion is done to get maximum work w = -151 J in a reversibly expansion of gas: ...
Carboxylic Acids - BSAK Chemistry weebly
... Acyl chlorides with ammonia • Ethanoyl chloride reacts violently with a cold concentrated solution of ammonia. • A white product is formed which is a mixture of two solid products Predict what the products will be and write an equation for this reaction. ...
... Acyl chlorides with ammonia • Ethanoyl chloride reacts violently with a cold concentrated solution of ammonia. • A white product is formed which is a mixture of two solid products Predict what the products will be and write an equation for this reaction. ...
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 ...
Chapter 5
... Different types of molecular motion contribute to overall internal energy: (a) translational (KE), (b) rotational, and (c) vibrational. ...
... Different types of molecular motion contribute to overall internal energy: (a) translational (KE), (b) rotational, and (c) vibrational. ...
Methane Activation by Transition-Metal Oxides, MOx
... Again, CH3-MOx-1-OH formation is about 20 kcal/mol more exothermic than H-MOx-1-OCH3 formation, paralleling the trend that the O-H bond is about 20 kcal/mol stronger than the O-CH3 bond. The interplay between the strengths of a M-O π bond and the R-MOx bonds is responsible for the computed trends in ...
... Again, CH3-MOx-1-OH formation is about 20 kcal/mol more exothermic than H-MOx-1-OCH3 formation, paralleling the trend that the O-H bond is about 20 kcal/mol stronger than the O-CH3 bond. The interplay between the strengths of a M-O π bond and the R-MOx bonds is responsible for the computed trends in ...
chapter 4 lecture slides
... 1. changes in ionic strength (more ions present before the rxn than after) 2. what actually changed during a reaction Example: Cd2+ (aq) + S2-(aq) –> CdS (s) Writing ionic equations, ask: 1. is substance soluble ? 2. is substance a strong electrolyte? **If yes to both questions, write substance as i ...
... 1. changes in ionic strength (more ions present before the rxn than after) 2. what actually changed during a reaction Example: Cd2+ (aq) + S2-(aq) –> CdS (s) Writing ionic equations, ask: 1. is substance soluble ? 2. is substance a strong electrolyte? **If yes to both questions, write substance as i ...
odd - WWW2
... formed by the most electropositive metals. These may contain the dicarbide(2 ) ion, C22 , or the true carbide ion C4 . Both types of ionic carbides react with water to produce the appropriate hydrocarbon. Covalent carbides are formed by nonmetals, specifically boron and silicon, more electronegative ...
... formed by the most electropositive metals. These may contain the dicarbide(2 ) ion, C22 , or the true carbide ion C4 . Both types of ionic carbides react with water to produce the appropriate hydrocarbon. Covalent carbides are formed by nonmetals, specifically boron and silicon, more electronegative ...
L-11 Chemical thermodynamics
... the sudden decrease or incease of the external pressure, will lead to non-uniformity in temperature and pressure within the system and the equilibrium will be disturbed. Such processes are called as irreversible processes. ...
... the sudden decrease or incease of the external pressure, will lead to non-uniformity in temperature and pressure within the system and the equilibrium will be disturbed. Such processes are called as irreversible processes. ...
- Vijay Education Academy
... When Ram came from school, he saw his mother talking to a person who claimed that he would polish her tarnished silver/gold bangles charging only a nominal amount of money. Out of curiosity, Ram asked the person concerned as to how would he polish the bangles. The man showed him a silvery heavy liqu ...
... When Ram came from school, he saw his mother talking to a person who claimed that he would polish her tarnished silver/gold bangles charging only a nominal amount of money. Out of curiosity, Ram asked the person concerned as to how would he polish the bangles. The man showed him a silvery heavy liqu ...
LECTURE PPT: Chapter 8
... was the additive of choice by the oil companies. • MTBE is a compound that does not biodegrade readily. • MTBE made its way into drinking water through gasoline spills at gas stations, from boat motors, and from leaking underground storage tanks. • Ethanol (C2H5OH), made from the fermentation of gra ...
... was the additive of choice by the oil companies. • MTBE is a compound that does not biodegrade readily. • MTBE made its way into drinking water through gasoline spills at gas stations, from boat motors, and from leaking underground storage tanks. • Ethanol (C2H5OH), made from the fermentation of gra ...
7.1 Describing Reactions
... You can balance a chemical equation by changing the coefficients, the numbers that appear before the formulas. In the unbalanced equation above, the coefficients are understood to be 1. When you change a coefficient, you change the amount of that reactant or product represented in the chemical equatio ...
... You can balance a chemical equation by changing the coefficients, the numbers that appear before the formulas. In the unbalanced equation above, the coefficients are understood to be 1. When you change a coefficient, you change the amount of that reactant or product represented in the chemical equatio ...
CH 233H Final Exam Tuesday, June 9, 2015
... You may, of course, calculate DHr° and DSr° for each reaction before calculating each free energy change: Benzene to cyclohexane: DHr° = -206.7 kJ/mol; DSr° = -361.5 J/(mol-K) 1,3-cyclohexadiene to cyclohexane: DHr° = -229.1 kJ/mol; DSr° = -254.8 J/(mol-K) Cyclohexene to cyclohexane: DHr° = -119.9 k ...
... You may, of course, calculate DHr° and DSr° for each reaction before calculating each free energy change: Benzene to cyclohexane: DHr° = -206.7 kJ/mol; DSr° = -361.5 J/(mol-K) 1,3-cyclohexadiene to cyclohexane: DHr° = -229.1 kJ/mol; DSr° = -254.8 J/(mol-K) Cyclohexene to cyclohexane: DHr° = -119.9 k ...
Bioorthogonal chemistry
The term bioorthogonal chemistry refers to any chemical reaction that can occur inside of living systems without interfering with native biochemical processes. The term was coined by Carolyn R. Bertozzi in 2003. Since its introduction, the concept of the bioorthogonal reaction has enabled the study of biomolecules such as glycans, proteins, and lipids in real time in living systems without cellular toxicity. A number of chemical ligation strategies have been developed that fulfill the requirements of bioorthogonality, including the 1,3-dipolar cycloaddition between azides and cyclooctynes (also termed copper-free click chemistry), between nitrones and cyclooctynes, oxime/hydrazone formation from aldehydes and ketones, the tetrazine ligation, the isocyanide-based click reaction, and most recently, the quadricyclane ligation.The use of bioorthogonal chemistry typically proceeds in two steps. First, a cellular substrate is modified with a bioorthogonal functional group (chemical reporter) and introduced to the cell; substrates include metabolites, enzyme inhibitors, etc. The chemical reporter must not alter the structure of the substrate dramatically to avoid affecting its bioactivity. Secondly, a probe containing the complementary functional group is introduced to react and label the substrate.Although effective bioorthogonal reactions such as copper-free click chemistry have been developed, development of new reactions continues to generate orthogonal methods for labeling to allow multiple methods of labeling to be used in the same biosystems.