Substance X is known to exist at 1 atm in the solid, liquid, or vapor phase, depending on the temperature. Additionally, the values of these other properties of X have been determined: melting point 20. °C boiling point 55. °C enthalpy of vaporization enthalpy of fusion 14.00 kJ/mol 36.00 kJ/mol 2.70 g/cm³ (solid) density 27. J-K-mol (solid) 2.50 g/mL (liquid) heat capacity 30. J·Kmol (liquid) 30. J·K -1 •mol (vapor) You may also assume X behaves as an ideal gas in the vapor phase. Suppose a small sample of X at -20 °C is put into an evacuated flask and heated at a constant rate until 20.0 kJ/mol of heat has been added to the sample. Graph the temperature of the sample that would be observed during this experiment.

pls help!! make the graph very accurate and simple as the picture. explain also how you get there pls

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Substance X is known to exist at 1 atm in the solid, liquid, or vapor phase, depending on the temperature. Additionally, the values of these other properties of X have been determined: melting point 20. °C boiling point 55. °C enthalpy of vaporization enthalpy of fusion 14.00 kJ/mol 36.00 kJ/mol 2.70 g/cm³ (solid) 2.50 g/mL (liquid) 1 density 27. J-K-mol (solid) 1 heat capacity 30. J-Kmol (liquid) 1 1 30. J·Kmol (vapor) You may also assume X behaves as an ideal gas in the vapor phase. Suppose a small sample of X at -20 °C is put into an evacuated flask and heated at a constant rate until 20.0 kJ/mol of heat has been added to the sample. Graph the temperature of the sample that would be observed during this experiment. 80- 70 60 50- 40. (ɔ.

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You may also assume X behaves as an ideal gas in the vapor phase. Suppose a small sample of X at -20 °C is put into an evacuated flask and heated at a constant rate until 20.0 kJ/mol of heat has been added to the sample. Graph the temperature of the sample that would be observed during this experiment. 80 ±x 70 60 50 40 30- 20 10 0- -10 -20- 10 15 20 heat added (kJ/mol) temperature (c)