Consider the heating curve provided for 1.00 mole of a substance that begins as a solid at -14.8 °C and ends as a gas at 121.1 °C. Specific heat capacities: solid = 145.6 J/mol・°C, liquid = 97.25 J/mol・°C, gas = 68.49 J/mol・°C
Consider the heating curve provided for 1.00 mole of a substance that begins as a solid at -14.8 °C and ends as a gas at 121.1 °C. Specific heat capacities: solid = 145.6 J/mol・°C, liquid = 97.25 J/mol・°C, gas = 68.49 J/mol・°C
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Consider the heating curve provided for 1.00 mole of a substance that begins as a solid at -14.8 °C and ends as a gas at 121.1 °C. Specific heat capacities: solid = 145.6 J/mol・°C, liquid = 97.25 J/mol・°C, gas = 68.49 J/mol・°C
Transcribed Image Text:step A:
How much heat energy (in kJ) must be absorbed to increase the temperature of the solid
from -14.8 °C to the melting temperature?
Step B: how much heat energy (in kJ) must be absorbed to melt the solid ?
Step C: how much heat energy (in kJ) must be absorbed to increase the temperature of the
liquid from the melting temperature to the boiling temperature?
Step D: how much heat energy (in kJ) must be abosrbed to boil the liquid?
Step E: how much energy (in kJ) must be absorbed to increase the temperature of the gas
from the boiling temperature to the final temperature of 1211 degrees C
Step F: what is the total amount of energy that ust be absorbed for the entire process?
Privan
Transcribed Image Text:121.1C_
106.7C
D
28.2kJ
10.2 k
-4.1°C
A
-14.8"C
heat added
B.
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