Circle Packing Approach to Modeling van der Waals Forces
Circle Packing Approach to Modeling van der Waals Forces
Circle Packing Approach to Modeling van der Waals Forces
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Results<br />
<strong>van</strong> <strong>der</strong> <strong>Waals</strong><br />
100<br />
10<br />
1<br />
0.1<br />
0.01<br />
0.001<br />
0.0001<br />
Packed Cylin<strong>der</strong> Models<br />
1 2 3 4 5 6 7 8 9 10<br />
Distance Z from Flat Plane<br />
N = 7<br />
N = 61<br />
N = 100<br />
N = 150<br />
N = 200<br />
N = 250<br />
N = 300<br />
N = 350<br />
N = 400<br />
N = 450<br />
N = 500<br />
Reference Model<br />
Figure VI. Van <strong>der</strong> <strong>Waals</strong> “sphere packed” finite model of cylin<strong>der</strong>-flat plane compared <strong>to</strong> reference model, where N<br />
represents the number of spheres packed in<strong>to</strong> a given cross-section.<br />
y<br />
x