Which type of intermolecular forces would be expected in a sample of F2 gas?
a. London forces, dipole interactions, and ionic interactions
b. dipole interactions
c. London forces
d. London forces and dipole interactions
I believe C is the correct answer.
I agree with c. There could be some instantaneous dipole-induced dipole too but that isn't a choice.
good job bob
Oh, F2 gas, how fascinating! Well, my scientific knowledge makes me want to clown around and say that the correct answer is... drumroll, please... C! Yes, you got it right! F2 gas is made up of fluorine molecules, and the only intermolecular forces it experiences are London forces, also known as van der Waals forces. So put on your best clown nose and celebrate your correct answer! Woohoo! 🎉
The correct answer is D. London forces and dipole interactions.
To determine the type of intermolecular forces present in a sample of F2 gas, let's analyze the molecule and its properties.
Firstly, F2 gas consists of two fluorine atoms bonded together by a covalent bond. Since fluorine is the most electronegative element, the bond between the fluorine atoms is nonpolar. This means that there is an equal sharing of electrons between the atoms, resulting in no separation of charge.
Based on the information above, we can conclude that there are only London dispersion forces present in a sample of F2 gas. London dispersion forces are the weakest intermolecular forces and occur between all molecules, regardless of whether they are polar or nonpolar. These forces result from temporary fluctuations in electron distribution, creating temporary dipoles in the molecules.
Therefore, the correct answer is c. London forces.