Rotational KE of Cl2 Molecule: Calc Molar Mass 70.0 g/mol

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Homework Help Overview

The discussion revolves around calculating the rotational kinetic energy of a chlorine (Cl2) molecule, given its molar mass of 70.0 g/mol and a specified distance between the chlorine atoms. Participants are exploring the concepts of rotational motion and kinetic energy in the context of molecular physics.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning, Assumption checking

Approaches and Questions Raised

  • Participants are attempting to identify the correct formula for rotational kinetic energy and moment of inertia. Questions are raised regarding the appropriateness of modeling the molecule as a rod and the implications of mass distribution in the calculation.

Discussion Status

The discussion is ongoing, with participants providing insights and questioning assumptions about the model used for the chlorine molecule. Some guidance has been offered regarding the calculation of molecular mass and the interpretation of moment of inertia.

Contextual Notes

There is a focus on the distinction between the mass of the molecule and the mass of individual atoms, as well as the need for clarity on the assumptions made in modeling the molecule's structure.

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In a crude model of a rotating diatomic molecule of chlorine (Cl2), the two Cl atoms are 2.00x10^-10 m apart and rotate about their center of mass with angular speed = 1.40x10^12 rad/s. What is the rotational kinetic energy of one molecule of Cl2, which has a molar mass of 70.0 g/mol?

I have tried this problem but I really don't even know where to start..
 
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What is the formula for Rotational Kinetic energy of a an object?
 
KE=1/2* I* (angular speed)^2

I=1/12*m*L^2

would mass=140 g?
 
Why have you chosen I = 1/12* m*l^2? Are you approximating this as a rod of length L? I don't think that's a good idea because most of the mass is concentrated in the atom, not the bond. So I think taking this as two sepearate Cl atoms rotating about the COM is a better idea

Also, the mass will not be 140g. The mass of 1 mol of Cl2 is 70 grams. And you know 1 mol of Cl2 contains around 6.023*10^23 molecules. So what is the mass of 1 molecule?
 
ok i got the mass of one to be 1.16E-22

But then what equation for moment of inertia would I use?
 

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