Define the following terms: transition state and activation energy. On a molecular level, how does an...

There are several factors that affect the rate of a reaction. These factors include temperature, activation...

There are several factors that affect the rate of a reaction. These factors include temperature, activation energy, steric factors (orientation), and also collision frequency, which changes with concentration and phase. All the factors that affect reaction rate can be summarized in an equation called the Arrhenius equation: k=Ae−Ea/RT where k is the rate constant, A is the frequency factor, Ea is the activation energy, R=8.314 J/(mol⋅K) is the universal gas constant, and T is the absolute temperature. __________________________________________________ A certain...

How much does an enzyme need to reduce the activation energy of a reaction at 25...

How much does an enzyme need to reduce the activation energy of a reaction at 25 ºC in order to increase the rate 100-fold over the uncatalyzed reaction? R = 8.3145 J/K mol. When answering, convert your response to kJ/mol and input ONLY a number, rounded to one decimal place. Hint: the rate constant for an enzymatic reaction divided by the uncatalyzed reaction = 10

The hydrolysis of urea to ammonia plus CO2 normally has an activation energy of 125 kJ/mol...

The hydrolysis of urea to ammonia plus CO2 normally has an activation energy of 125 kJ/mol at 294 K, but when the urease enzyme catalyzes the reaction it lowers the activation energy to 46 kJ/mol. By what factor does this increase the velocity of the reaction? The rate constant equation might be helpful here, where k = A·e(-ΔG°‡/RT) and A = 6.12 x 1012 s-1. Look at both kcat and knon, finding the ratio between the two

The activation energy of a particular reaction is 245 kJ/mol. How many degrees above room temperature...

The activation energy of a particular reaction is 245 kJ/mol. How many degrees above room temperature (25°C) would the reaction need to be heated in order to see a 10 fold increase in the rate constant?

A. Prepare a molecular orbital energy level diagram for a CuCl+ ion. Use sketches to show...

A. Prepare a molecular orbital energy level diagram for a CuCl+ ion. Use sketches to show clearly how the atomic orbitals interact to give MOs. B. What is the bond order for the ion and how many unpaired electrons does the molecule have? C. Which molecular orbital of the ion would you predict to interact with Clto form the CuCl2 molecule?

a. How much energy does an electron in the n=1 (lowest-energy) state of Hydrogen have?Repeat for...

a. How much energy does an electron in the n=1 (lowest-energy) state of Hydrogen have?Repeat for n=2 and n=3. b. How much energy is emitted if an electron in the n=3 state transitions to the n=2 state? c. We used diffraction gratings in class that had 500 lines/mm (white cardboard surrounding grating) and 1000 lines/mm (rainbow cardboard surrounding grating). For the 1000 lines/mm grating, what are the angles of emitted light (relative to the central maximum) when an n=3 to...

1) Consider the following equation: Rate = k [CH3I]2 [C15H11N] i) If the concentration of C15H11N...

1) Consider the following equation: Rate = k [CH3I]2 [C15H11N] i) If the concentration of C15H11N is doubled, does the rate constant: A) Increase B) Decrease C) Remain unchanged ii) If the concentration of of CH3I is decreased by a factor of 3, the time it takes for the reaction to finish will: A) Increase by a factor of 3 B) Increase by a factor of 9 C) Decrease by a factor of 9 D) Remain Unchanged iii) If the...

Pre -Laboratory Assignment 1. Briefly describe or define each of the following terms as they pertain...

Pre -Laboratory Assignment 1. Briefly describe or define each of the following terms as they pertain to this experiment. a) Spotting a plate b) Developing a plate c) Visualizing d) Rf e) eluent f) stationary phase 2. List the following solvents in order of increasing polarity: dichloromethane, acetone, toluene and cyclohexane. 3. Your unknown sample moved a distance of 25 millimeter from its origin while the distance traveled by the eluent from the origin was 55 millimeters. What is the...

1)To lower the energy barrier in a reaction, enzymes change the path of the reaction between...

1)To lower the energy barrier in a reaction, enzymes change the path of the reaction between the reactants and products by doing what? A. Destabilizing the transition state by increasing the free energy to be used and lowering the activation energy B. Releasing carbonic acid into the environment to stabilize the transition state and lowering the activation energy C. Reduce the activation energy by stabilizing the transition state and decreasing its free energy D.Supply heat to stabilize the reactants and...

Nitric oxide was reacted with chlorine to produce nitrosyl chloride according to the following equation: 2NO(g)...

Nitric oxide was reacted with chlorine to produce nitrosyl chloride according to the following equation: 2NO(g) + Cl2(g) ?? 2NOCl(g) The rate constant for this reaction at 25oC is 4.9 X 10-6 L/(mol.s) while the rate constant at 150C is 1.5 X 10-5 L/(mol.s). Use this data to calculate the energy of activation for this reaction. 2) What is the rate constant at 150oC for the reaction in question 1? 3) Does the reaction between acetone and iodine follow the...