3.13. In Section 3.3, the open nature of the CaF2 structure Afon was given credit for the ability of UO2 to absorb He gas atoms and thereby resist swelling. Confirm that an He atom ( diameter = 0.2 nm) can fit in the center of the UO2 unit cell (see Figure 3.10 for the CaF22 structure). yobw bas hoy 2. 3.13. In Section 3.3, the open nature of the CaF 2 structure was given credit for the ability of UO 2 to absorb He gas atoms and thereby resist swelling. Confirm that an He atom (diameter = 0.2 nm) can fit in the center of the UO 2 unit cell (see Figure 3.10 for the CaF 2 structure).
3.13. In Section 3.3, the open nature of the CaF2 structure Afon was given credit for the ability of UO2 to absorb He gas atoms and thereby resist swelling. Confirm that an He atom ( diameter = 0.2 nm) can fit in the center of the UO2 unit cell (see Figure 3.10 for the CaF22 structure). yobw bas hoy 2. 3.13. In Section 3.3, the open nature of the CaF 2 structure was given credit for the ability of UO 2 to absorb He gas atoms and thereby resist swelling. Confirm that an He atom (diameter = 0.2 nm) can fit in the center of the UO 2 unit cell (see Figure 3.10 for the CaF 2 structure).
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Chapter1: Chemical Foundations
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Transcribed Image Text:3.13. In Section 3.3, the open nature of the CaF2 structure Afon was given credit for the ability
of UO2 to absorb He gas atoms and thereby resist swelling. Confirm that an He atom (
diameter = 0.2 nm) can fit in the center of the UO2 unit cell (see Figure 3.10 for the CaF22
structure). yobw bas hoy 2. 3.13. In Section 3.3, the open nature of the CaF 2 structure was
given credit for the ability of UO 2 to absorb He gas atoms and thereby resist swelling.
Confirm that an He atom (diameter = 0.2 nm) can fit in the center of the UO 2 unit cell (see
Figure 3.10 for the CaF 2 structure).
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