The AHvap of a certain compound is 26.36 kJ . mol-and its A.Svap is 72.66 J....
apling Learning acmilan learning The AHvap of a certain compound is 20.48 kJ- mol1and its ASvap is 52.09 J-mol1 K1 What is the boiling point of this compound? Number C apling Learning acmilan learning The AHvap of a certain compound is 20.48 kJ- mol1and its ASvap is 52.09 J-mol1 K1 What is the boiling point of this compound? Number C
The ΔHvap of a certain compound is 26.98 kJ⋅mol−1 and its ΔSvap is 53.55 J⋅mol−1⋅K−1. What is the boiling point of this compound? boiling point: ? C
The AHap of a certain compound is 18.70 kJ. mol- and its AS vzp is 50.73 J. mol".K. What is the boiling point of this compound? boiling point:
The AH yap of a certain compound is 33.00 kJ - mol-' and its AS vap is 91.59 J. mol-. K-I. What is the boiling point of this compound? boiling point:
The AH vap of a certain compound is 31.90 kJ. mol-' and its AS vap is 73.92 J. mol-.K-! What is the boiling point of this compound? boiling point: °C
Thd AHyap of a certain compound is 11.51 kJ - mol- and its A Svapº is 69.92 J. mol-.K-!! What is the normal boiling point of this compound? normal boiling point:
OLLILEI UM ALLI LUUIU. Compound Melting point (°C) A Hus (kJ/mol) Boiling point (°C) AHvap (kJ/mol) HF -83.11 4.577 19.54 25.18 HCI -114.3 1.991 -84.9 17.53 HBO -86.96 2.406 -67.0 19.27 HI -50.91 2.871 -35.38 21.16 Using the data in the table, calculate AS tus and ASvap for HCL. Astus = AS = J/(K.mol) ASvap = J/(K.mol) Determine the entropy change when 5.70 mol HCI) melts at atmospheric pressure. AS = | J/K
Determine the AHvap in kJ/mol using Clausius-Clapeyron equation given that the boiling at 1.5 atm of a substance is 400 K, and its normal boiling point is 348 K. (Only enter numericanswer to its first decimal place, do not enter unit kJ/mol) P2 In P1 -AH/1 R T2 "G. =)
Question 16 (1 point) Which substance below has the weakest intermolecular forces? BY2, AHvap=29.2 kJ/mol A2X, AHvap= 41.2 kJ/mol C3X2, AHvap= 33.2 kJ/mol DX2, AHvap= 25.2 kJ/mol EY3, AHvap= 20.5 kJ/mol Question 3 (1 point) The spheres below represent atoms of Si, Ge,C, and Sn (not necessarily in that order). r=110 pm - 140 pm T-75 pm (a) r=120 pm (c) Which one of these spheres represents an atom of Si? sphere (c) sphere (b) sphere (a) sphere (d) KYC...
Consider the following data for an unknown substance X: AHvap = 21.00 kJ/mol Specific heat capacity of liquid = 2.40 J/g. °C Boiling point = 70.0°C Molar mass=92.00 g/mol When the temperature of 1.000 mole of X(g) is lowered from 94.0°C to form X(1) at 46.0°C, 29.97 kJ of heat is released. Calculate the specific heat capacity of X(9). Specific heat capacity = J/g. °C Submit Answer Try Another Version 5 item attempts remaining