38 ical expressions for O 3 molecule 3 39 20 Table S20: Rotational partition functions from analyt-40 ical expressions for CH 2 O molecule 3 41 21 Table S21: Rotational partition functions from analyt-42 ical expressions for C 2 H 4 O 2 molecule 3 43 22 Table S22: Rotational partition functions from analyt-44 ical expressions for CH 2 CHOH molecule 3 45 23 Table S23: Rotational partition functions from analyt-46 ical expressions for ClH 2 + molecule 3 47 1-3 Rotational Thermodynamic Parameters Haiwang et al. 1 Table S1: Rotational thermodynamic data for 48 H 2 O molecule 49 Complete rotational thermodynamic parameters for H 2 O 50 molecule for temperatures from 1 to 10 000 K. Results are 51 reported in Table S1 (See P.1-39). 52 2 Table S2: Rotational partition functions from 53 analytical expressions for H 2 O molecule 54 Rotational partition functions from analytical expressions for 55 H 2 O molecule for temperatures from 1 to 24 K. Results are re-56 ported in Table S2 (See P.39-40). 57 3 Table S3: Rotational partition functions from 58 analytical expressions for CH 2 molecule 59 Rotational partition functions from analytical expressions for 60 CH 2 molecule for temperatures from 2 to 17 K. Results are re-61 ported in Table S3 (See P.40-41). 62 4 Table S4: Rotational partition functions from 63 analytical expressions for H 3 + molecule 64 Rotational partition functions from analytical expressions for 65 H 3 + molecule for temperatures from 8 to 47 K. Results are re-66 ported in Table S4 (See P.41-42). 67 5 Table S5: Rotational partition functions from 68 analytical expressions for H 2 O+ molecule 69 Rotational partition functions from analytical expressions for 70 H 2 O+ molecule for temperatures from 2 to 22 K. Results are 71 reported in Table S5 (See P.42-43). 72 6 Table S6: Rotational partition functions from 73 analytical expressions for H 2 D+ molecule 74 Rotational partition functions from analytical expressions for 75 H 2 D+ molecule for temperatures from 8 to 47 K. Results are 76 reported in Table S6 (See P.43-44). 77 7 Table S7: Rotational partition functions from 78 analytical expressions for C 2 O molecule 79 Rotational partition functions from analytical expressions for 80 C 2 O molecule for temperatures from 0.02 to 1.30 K. Results are 81 reported in Table S7 (See P.44-45). 82 8 Table S8: Rotational partition functions from analytical expressions for C 2 S molecule Rotational partition functions from analytical expressions for C 2 S molecule for temperatures from 0.01 to 1.20 K. Results are reported in Table S8 (See P.45-46). 9 Table S9: Rotational partition functions from analytical expressions for C 2 Si molecule Rotational partition functions from analytical expressions for C 2 Si molecule for temperatures from 0.1 to 1.50 K. Results are reported in Table S9 (See P.46). 10 Table S10: Rotational partition functions from analytical expressions for NH 2 molecule Rotational partition functions from analytical expressions for NH 2 molecule for temperatures from 1 to 19 K. Results are reported in Table...
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.