The validation about the presence of a “head and two tails” structure in the given substance has to be predicted. Concept introduction: The “head and two tails” model gives the orientation of groups in space. It has two parts, the head which is polar and the two tails, which are non-polar. The polar part of the model is soluble in water, so it is hydrophilic in nature. The non-polar part of the model is insoluble in water, so it is hydrophobic in nature.
The validation about the presence of a “head and two tails” structure in the given substance has to be predicted. Concept introduction: The “head and two tails” model gives the orientation of groups in space. It has two parts, the head which is polar and the two tails, which are non-polar. The polar part of the model is soluble in water, so it is hydrophilic in nature. The non-polar part of the model is insoluble in water, so it is hydrophobic in nature.
Definition Definition Simplest organic compounds that contain only single bonds between carbon – carbon atoms and carbon – hydrogen bonds. This means they are a series of saturated compounds with a general molecular formula, C n H 2n+2 .
Chapter 19, Problem 19.156EP
(a)
Interpretation Introduction
Interpretation: The validation about the presence of a “head and two tails” structure in the given substance has to be predicted.
Concept introduction: The “head and two tails” model gives the orientation of groups in space. It has two parts, the head which is polar and the two tails, which are non-polar. The polar part of the model is soluble in water, so it is hydrophilic in nature. The non-polar part of the model is insoluble in water, so it is hydrophobic in nature.
(b)
Interpretation Introduction
Interpretation: The validation about the presence of a “head and two tails” structure in the given substance has to be predicted.
Concept introduction: The “head and two tails” model gives the orientation of groups in space. It has two parts, the head which is polar and the two tails, which are non-polar. The polar part of the model is soluble in water, so it is hydrophilic in nature. The non-polar part of the model is insoluble in water, so it is hydrophobic in nature.
(c)
Interpretation Introduction
Interpretation: The validation about the presence of a “head and two tails” structure in the given substance has to be predicted.
Concept introduction: The “head and two tails” model gives the orientation of groups in space. It has two parts, the head which is polar and the two tails, which are non-polar. The polar part of the model is soluble in water, so it is hydrophilic in nature. The non-polar part of the model is insoluble in water, so it is hydrophobic in nature.
(d)
Interpretation Introduction
Interpretation: The validation about the presence of a “head and two tails” structure in the given substance has to be predicted.
Concept introduction: The “head and two tails” model gives the orientation of groups in space. It has two parts, the head which is polar and the two tails, which are non-polar. The polar part of the model is soluble in water, so it is hydrophilic in nature. The non-polar part of the model is insoluble in water, so it is hydrophobic in nature.
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, biology and related others by exploring similar questions and additional content below.