![EBK ORGANIC CHEMISTRY](https://www.bartleby.com/isbn_cover_images/8220103151757/8220103151757_largeCoverImage.jpg)
(a)
Interpretation:
The reason as to why the trityl radical is an unusually stable radical is to be stated.
Concept introduction:
Resonance is a phenomenon in which polarity is generated in a molecule by the interaction of the conjugated
(b)
Interpretation:
The process of formation of a dimer, hexaphenylethane from the trityl radicals is to be stated.
Concept introduction:
Free radical addition reaction is a reaction in which two stable radicals or a radical and a non radical form a bond by sharing their radicals. The reaction takes place in three steps: chain initiation, chain propagation, and chain termination.
(c)
Interpretation:
The reason as to why the dimer of two trityl radical,
Concept introduction:
Free radical addition reaction is a reaction in which two stable radicals or a radical and a non radical form a bond by sharing their radicals. The reaction takes place in three steps: chain initiation, chain propagation, and chain termination.
![Check Mark](/static/check-mark.png)
Want to see the full answer?
Check out a sample textbook solution![Blurred answer](/static/blurred-answer.jpg)
Chapter 17 Solutions
EBK ORGANIC CHEMISTRY
- Alkyl halides can be reduced to alkanes by a radical reaction with tributyltin hydride, (C4H9)3SnH, in the presence of light (hv). Propose a radical chain mechanism by which the reaction might occur. The initiation step is the light-induced homolytic cleavage of the Sn-H bond to yield a tributyltin radical.arrow_forwardWhich of the following is true about fluorescence intensity of the molecule? I Fluorescence is observed in planar molecules and its intensity increase with an increase in the number of aromatic rings II When zinc is added to a hydroxyl quinoline solution the fluorescence intensity increased due to the formation of a complex which increases the rigidity of the molecule. III On increasing the intensity of the incident radiation the fluorescence intensity increases IV On increasing the concentration of the fluorigenic molecule, the fluorescence intensity increases. A plot of intensity vs concentration exhibita linear relation indefinitely in all concentration ranges. O a. II,III,IV O b. 1,11,1II,IV O. I,II,III O d. II,I,IV O e. I,II,IVarrow_forwardThe overall reaction of hydroxide radical with hydrogen gas occurs as follows: OH (g) + H2(g) – H20(g) + H'(g) Part A This reaction plays a significant role in the chemistry of the earth's atmosphere by eventually converting OH to HO, through the subsequent reaction of H with O2. HO2 is involved in the destruction of stratospheric ozone (J. Phys. Chem. A, 2006, 110. 6978). Determine the activation energy for the reaction of OH with H, reaction. O 16.4 kJ mol The rate constants for the reaction of OH with H2 were found to be 1.83x10' L mol s'at 107. °C and 5.68×10° L mol's at 37. C. -1 O -85.9 kJ mol -1 O -16.4 kJ mol O 54.8 kJ mol O 65.9 kJ molarrow_forward
- The data below show the concentration of N2O5 versus time for the following reaction: N2O5 (g) → NO3 (g) + NO2(g) Time (s) [N2O5] (M) 1.000 25 0.822 50 0.677 75 0.557 100 0.458 125 0.377 150 0.310 175 0.255 200 0.210arrow_forwardNitric oxide, NO·, is another radical also thought to cause ozone destruction by a similar mechanism. One source of NO· in the stratosphere is supersonic aircraft whose jet engines convert small amounts of N2 and O2 to NO·. Write the propagation steps for the reaction of O3 with NO·.arrow_forwardA minor route for ozone destruction in the ozone hole involves Mechanism II with bromine as X' and chlorine as X (or vice-versa). The CIO and BrO free radical molecules produced in these processes then collide with each other and rearrange their atoms to eventually yield O, and atomic chlorine and bromine. Write out the mechanism for this process, and add up the steps to determine the overall reaction.arrow_forward
- E17C.1(b) The equilibrium constant for the binding of a drug molecule to a protein was measured as 200. In a separate experiment, the rate constant for the binding process, which is second order overall, was found to be 1.5 x 10 dm mol s. What is the rate constant for the first-order dissociation of the drug molecule from the protein- drug complex?arrow_forward(c) At low temperatures, reaction (3) is replaced by the following reaction forming a stable dimer of CIO, which itself is rapidly photolysed to form Cl atoms: CIO + CIO Cl₂O2 2C1 + O2 Describe briefly, in qualitative terms, the effect that this reaction will have on the observed rate of ozone destruction. Note that Ka[Cl2] is the rate at which photons are absorbed by Cl2, and is often referred to as la.arrow_forwardThe reaction between peroxodisulphate (VI) ions, S2O82-and iodide ions, I- can be catalyzed by iron(III) ions, Fe3+. Suggest a mechanism for the catalytic reaction. Sketch an energy profile diagram for the catalyzed and uncatalyzed reactions.arrow_forward
- The first step in plant photosynthesis is absorption of light by chlorophyll molecules bound to proteins known as ‘light-harvesting complexes’, where the fluorescence of a chlorophyll molecule is quenched by other nearby chlorophyll molecules. Given that for a pair of chlorophyll a molecules R0 = 5.6 nm, by what distance should two chlorophyll a molecules be separated to shorten the fluorescence lifetime from 1 ns (a typical value for monomeric chlorophyll a in organic solvents) to 10 ps?arrow_forwardExplain why the combustion of a fuel such as methane is aseries of free radical reactions.arrow_forwardThe 1995 Nobel Prize in Chemistry was shared by Paul Crutzen, F. Sherwood Rowland, and Mario Molina for their work concerning the formation and decomposition of ozone in the stratosphere. Rowland and Molina hypothesized that chlorofluorocarbons (CFCS) in the stratosphere break down upon exposure to UV radiation, producing chlorine atoms. Chlorine was previously identified as a catalyst in the breakdown of ozone into oxygen gas. Using the enthalpy of reaction for two reactions with ozone, determine the enthalpy of reaction for the reaction of chlorine with ozone. (1) CIO(g) + 0;(g) Cl(g) + 20,(g) AHxn = -122.8 kJ AHan = -285.3 kJ (2) 203(g) → 30,(g) (3) 0,(g) + Cl(g) → CIO(g) + 0,(g) AHn = ?arrow_forward
![Text book image](https://www.bartleby.com/isbn_cover_images/9781305080485/9781305080485_smallCoverImage.gif)