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The reason corresponding to the fact that the boiling point of is lower than that of iodine monochloride, even though they have nearly same molar mass are to be stated. Concept introduction: The intermolecular interaction between non-polar or least polar molecules is known as dispersion force. This is also known as, London force in honor of the Fritz London’s great work on it. Boiling point of a compound is defined as the temperature at which the compounds start boiling. At this temperature the bonds present within the molecules start weakens and hence, liquid converts to the gaseous form. To determine: The reason corresponding to the fact that the boiling point of is lower than that of iodine monochloride, even though they have nearly same molar mass.

The reason corresponding to the fact that the boiling point of is lower than that of iodine monochloride, even though they have nearly same molar mass are to be stated. Concept introduction: The intermolecular interaction between non-polar or least polar molecules is known as dispersion force. This is also known as, London force in honor of the Fritz London’s great work on it. Boiling point of a compound is defined as the temperature at which the compounds start boiling. At this temperature the bonds present within the molecules start weakens and hence, liquid converts to the gaseous form. To determine: The reason corresponding to the fact that the boiling point of is lower than that of iodine monochloride, even though they have nearly same molar mass.

Chemistry

4th Edition

ISBN: 9780393919370

Author: Thomas R. Gilbert

Publisher: NORTON

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Chapter 10, Problem 10.24QP

Interpretation Introduction

Interpretation: The reason corresponding to the fact that the boiling point of is lower than that of iodine monochloride, even though they have nearly same molar mass are to be stated.

Concept introduction: The intermolecular interaction between non-polar or least polar molecules is known as dispersion force. This is also known as, London force in honor of the Fritz London’s great work on it. Boiling point of a compound is defined as the temperature at which the compounds start boiling. At this temperature the bonds present within the molecules start weakens and hence, liquid converts to the gaseous form.

To determine: The reason corresponding to the fact that the boiling point of is lower than that of iodine monochloride, even though they have nearly same molar mass.

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Chapter 10, Problem 10.23QP

Chapter 10, Problem 10.25QP

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Part 3: AHm,system Mass of 1.00 M HCI Vol. of 1.00 M HCI Mass of NaOH(s) Total Mass in Calorimeter Mole product if HCI limiting reactant Trial 1 62.4009 1.511g Mole product if NaOH limiting reactant Limiting reactant Initial Temperature Final Temperature 23.8°C 37.6°C Change in Temperature AHm,system (calculated) Average AHm,system (calculated) (calculated) (calculated) Trial 2 64.006g 1.9599 (calculated) (calculated) (calculated) (calculated) (calculated) (calculated) 24.7°C 41.9°C (calculated) (calculated) (2 pts. each)

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