The following statements to be explained by using given phase diagram of Sulphur. Concept Introduction Phase diagram: Under different temperature and pressure, physical states of the substance that are represented in graph are known as phase diagram. The temperature represents in X-axis and pressure in Y-axis. Triple point: For given substance, three phases (solid, liquid and gas) are coexisting in thermodynamic equilibrium at particular temperature and pressure. Critical point: In a phase diagram, a point at which both liquid and gaseous state of the substance having indistinguishable density. Normal melting point: Normal melting point of the solids defined as the temperature at which solid melts at 1 atmospheric pressure . Normal melting point is differing from melting point in which pressure would be defined. Normal boiling point: Normal boiling point of the liquid is defined as the temperature at which liquid boils at 1 atmospheric pressure . Normal boiling point is differing from boiling point in which pressure would be defined.
The following statements to be explained by using given phase diagram of Sulphur. Concept Introduction Phase diagram: Under different temperature and pressure, physical states of the substance that are represented in graph are known as phase diagram. The temperature represents in X-axis and pressure in Y-axis. Triple point: For given substance, three phases (solid, liquid and gas) are coexisting in thermodynamic equilibrium at particular temperature and pressure. Critical point: In a phase diagram, a point at which both liquid and gaseous state of the substance having indistinguishable density. Normal melting point: Normal melting point of the solids defined as the temperature at which solid melts at 1 atmospheric pressure . Normal melting point is differing from melting point in which pressure would be defined. Normal boiling point: Normal boiling point of the liquid is defined as the temperature at which liquid boils at 1 atmospheric pressure . Normal boiling point is differing from boiling point in which pressure would be defined.
Study of body parts and their functions. In this combined field of study, anatomy refers to studying the body structure of organisms, whereas physiology refers to their function.
Chapter 10, Problem 106E
Interpretation Introduction
Interpretation: The following statements to be explained by using given phase diagram of Sulphur.
Concept Introduction
Phase diagram: Under different temperature and pressure, physical states of the substance that are represented in graph are known as phase diagram. The temperature represents in X-axis and pressure in Y-axis.
Triple point: For given substance, three phases (solid, liquid and gas) are coexisting in thermodynamic equilibrium at particular temperature and pressure.
Critical point: In a phase diagram, a point at which both liquid and gaseous state of the substance having indistinguishable density.
Normal melting point: Normal melting point of the solids defined as the temperature at which solid melts at 1 atmospheric pressure. Normal melting point is differing from melting point in which pressure would be defined.
Normal boiling point: Normal boiling point of the liquid is defined as the temperature at which liquid boils at 1 atmospheric pressure. Normal boiling point is differing from boiling point in which pressure would be defined.
Frenkel and Schottky are intrinsic or extrinsic defects, point or linear defects.
Select the correct option:a) Frenkel and Schottky defects are linear crystal defects.b) Schottky defects involve atomic motions in a crystal lattice.c) Frenkel defects are vacancies in a crystal lattice.d) None of the above is correct.
The most common frequency in organic chemistry is the
Select one:
Oa. carbon-oxygen single bond
Ob. None of the above
Oc.
carbon-carbon double bond
Od. carbon-carbon single bond
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