ANSWER:-
the correct answer is SF6 because it has london dispersion forces due to absence of lone pair of electrons
CH2F2 is a polar molecule. So it will have dipole - dipole interaction along with the weaker dispersion forces.The dominant inter molecular force would be London dispersion force. Thus CH2F2 will have stronger intermolecular atractive forces as compared to CF4 so the correct option should be CF4
London dispersion forces for SO3 are stronger than the dipole forces PCl3 , so the correct option is SO3
weaker dipole dipole forces in CS2
Intermolecular Dipole-Dipole Forces From each pair below, select the molecule that will display weaker intermolecular dipole-dipole...
From each pair below, select the molecule that will display weaker intermolecular dipole-dipole forces in a sample of the pure substance. Consider VSEPR and read Zumdahl "Chemical Principles" Section 13.3 "Bond Polarity and Dipole Moments, also Section 16.1 "Intermolecular Forces", particularly the paragraphs headed "Dipole-Dipole Forces", and 16.2 The Liquid State" H2S
Intermolecular Dipole-Dipole Forces From each pair below, select the molecule that will display stronger intermolecular dipole-dipole forces in a sample of the pure substance. Consider VSEPR and read Zumdahl "Chemical Principles" Section 13.3 "Bond Polarity and Dipole Moments", also Section 16.1 "Intermolecular Forces", particularly the paragraphs headed "Dipole-Dipole Forces", and 16.2 "The Liquid State". SeF4 SeF6 CF4 CH2F2 CH2O SO3 H2O CS2 1pts Tries 0/5 SeF4 SeF6 CF4 CH2F2 CH2O SO3 H2O CS2
Intermolecular Dipole-Dipole Forces From each pair below, select the molecule that will display stronger intermolecular dipole-dipole forces in a sample of the pure substance Consider VSEPR and read Zumdahl "Chemical Principles Section 13.3 "Bond Polarity and Dipole Moments", also Section 16.1 "Intermolecular Forc cocl2 Intermolecular Dipole-Dipole Forces From each pair below, select the molecule that will display stronger intermolecular dipole-dipole forces in a sample of the pure substance Consider VSEPR and read Zumdahl "Chemical Principles Section 13.3 "Bond Polarity and...
Pls explain how to do this question. I don’t just want the answer. Timer Due this Wednesday, Aug 1 at 11:59 pm (PDT) Intermolecular Dipole-Dipole Forces From each pair below, select the molecule that will display stronger Intermolecular dipole-dipole forces in a sample of the pure substance. Consider VSEPR and read Zumdahl "Chemical Principles" Section 13.3 "Bond Polarity and Dipole Moments", also Section 16.1 Dipole-Dipole Forces, and 16.2 The Liquid State 1pts Post Discussion
Intermolecular Dipole-Dipole Forces From each pair below, select the molecule that will display stronger intermolecular dipole-dipole forces in a sample of the pure substance. O3 CS2 PCl3 SO3 SF6 SF4 CF4 CH2F2
INTERMOLECULAR FORCES INTRODUCTION LEARNING OBJECTIVES To relate the effecet of intermolecular forces on relative melting points and vapour pressures of some organic substances THEORY Weak attractive forces that occur between individual molecules in substances are called intermolecular forces. These include London dispersion forces, dipole-dipole forces and hydrogen-bonding forces. Collectively, the three types of intermolecular forces are referred to as Van der Waals forces. These attractive forces are much weaker than the chemical bonds between atoms in a molecule. Note that...
Consider the molecule below: o=s=o: Select ALL the intermolecular forces that are expected to be present between two of these molecules. Select as many answers as are applicable, however points will be deducted for incorrect guesses. Select one or more: Dispersion forces Dipole/dipole forces Hydrogen bonding Check What amount of thermal energy (in kJ) is required to convert 136 g of ice at -16 °C completely to water vapour at 217 °C? The melting point of water is 0°C and...