Videos
(a)
To determine: The way by which a switchable surfactant is used to clean up and then recover the oil from an oil spill.
Introduction:
The hydrophobic molecules repel water, while they are more soluble in oil than water. The water is a universal solvent, but the nonpolar substances are not soluble in water. This makes very difficult to wash oily dishes and mixing of both water and oil phase. The amphipathic compounds include surfactants that are used to suspend or mix the two phases together for various applications.
(b)
To determine: Which side will the equilibrium shift when the given pKa of amidinium ion is 12.4.
Introduction:
The hydrophobic molecules repel water, while they are more soluble in oil than water. The water is a universal solvent but the nonpolar substances are not soluble in water. This makes very difficult to wash oily dishes and mixing of both water and oil phase. The amphipathic compounds include surfactants that are used to suspend or mix the two phases together for various applications.
(c)
To explain: The reason behind the amidinium form of s-surf is a powerful surfactant and the amidine form is not powerful.
Introduction:
The hydrophobic molecules repel water, while they are more soluble in oil than water. The water is a universal solvent but the nonpolar substances are not soluble in water. This makes very difficult to wash oily dishes and mixing of both water and oil phase. The amphipathic compounds include surfactants that are used to suspend or mix the two phases together for various applications.
(d)
To determine: The form in which there is majority of s-surf in point A and point B.
Introduction:
The hydrophobic molecules repel water, while they are more soluble in oil than water. The water is a universal solvent but the nonpolar substances are not soluble in water. This makes very difficult to wash oily dishes and mixing of both water and oil phase. The amphipathic compounds include surfactants that are used to suspend or mix the two phases together for various applications.
(e)
To explain: The reason behind the rise of electrical conductivity from time
Introduction:
The hydrophobic molecules repel water, while they are more soluble in oil than water. The water is a universal solvent but the nonpolar substances are not soluble in water. This makes very difficult to wash oily dishes and mixing of both water and oil phase. The amphipathic compounds include surfactants that are used to suspend or mix the two phases together for various applications.
(f)
To explain: The reason behind the fall of electrical conductivity from point A to point B.
Introduction:
The hydrophobic molecules repel water, while they are more soluble in oil than water. The water is a universal solvent but the nonpolar substances are not soluble in water. This makes very difficult to wash oily dishes and mixing of both water and oil phase. The amphipathic compounds include surfactants that are used to suspend or mix the two phases together for various applications.
(g)
To explain: The use of “s-surf” to clean up and recover the oil from an oil spill.
Introduction:
The hydrophobic molecules repel water, while they are more soluble in oil than water. The water is a universal solvent but the nonpolar substances are not soluble in water. This makes very difficult to wash oily dishes and mixing of both water and oil phase. The amphipathic compounds include surfactants that are used to suspend or mix the two phases together for various applications.
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Chapter 2 Solutions
Lehninger Principles of Biochemistry
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- Identify the type of bond in the following disaccharides. Number your carbons to show work. Explain your answer thoroughly. Draw the number of carbons also.arrow_forwardDraw and explain your answer thoroughly: a. What is the molar mass of aspirin (C9H8O4)?b. What is the mass of 0.00225mol of aspirin?c. How many moles of aspirin are present in 500mg of aspirin?arrow_forwardGeranylgeranyl pyrophosphate 5 is converted by general acid-base catalysis to 6, and then to the natural product 7. For clarity only limited atom numbers are shown, but the main chain carbons are numbered 1 to 16, and the off-chain methyl substituents are numbered 17-20. A. Based on what you specified in A, use curly arrows on the drawing above to convert 5 to 6, and 6 to 7. Invoke general acids and general bases as needed, and draw in hydrogens as necessary . B. On the structure of 7, write in the atom numbers for the carbons marked with an asteriskarrow_forward
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- Select the CORRECT description of the peptide bond. The peptide bond can freely rotate around the peptide bond. The peptide bond is non-polar, hydrophobic and does not have a dipole. The peptide bond is most stable in the cis configuration. The peptide bond is rigid and planar. The peptide bond has a mix of single and double bond characters. The peptide bond is most stable in the trans configuration.arrow_forwardBelow is a fractional saturation curve for O2 binding to adult hemoglobin. Assume that curve Y represents a system at pH 7.4 and with a normal physiological level of 2,3-BPG. Curve Z represents a system that ___________________ Curve Z: is at pH 7.4 with a higher than normal physiological level of 2,3-BPG. is at pH 7.4 with a normal physiological level of 2,3-BPG but with a decreased level of CO2. has a higher pH with a normal physiological level of 2,3-BPG. has a higher pH with a lower than physiological level of 2,3-BPG.arrow_forwardWhich is a homotropic positive effector of aspartate transcarbamoylase (ATCase)? oxygen CTP aspartate ATParrow_forward
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