Answer:-
This question is solved by using the simple concept of calculation of heat usig the heat capacity and mass and change is temperature.
The answer is given in the image,
When 1491 J of heat energy is added to 38.3 g of hexane, CH4, the temperature...
When 1188 J of heat energy is added to 37.5 g of hexane, CH 4, the temperature increases by 14.0 °C. Calculate the molar heat capacity of CH4 Cp = J/(mol•°C)
When 1493 J of heat energy is added to 39.5 g of hexane, CH,4, the temperature increases by 16.7 °C. Calculate the molar heat capacity of C,H, J/(mol.°C)
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when 2053 j of heat is added to 46.3 g of hexane C6H14 the temperature increases by 19.6 Celsius calculate the molar heat capacity of C6H14
1) When 1336 J1336 J of heat energy is added to 47.6 g47.6 g of hexane, C6H14,C6H14, the temperature increases by 12.4 ∘C.12.4 ∘C. Calculate the molar heat capacity of C6H14. 2) Liquid sodium is being considered as an engine coolant. How many grams of liquid sodium (minimum) are needed to absorb 9.20 MJ9.20 MJ of energy in the form of heat if the temperature of the sodium is not to increase by more than 10.0 °C?10.0 °C? Use CP=30.8...
When 2056 J of heat energy is added to 45.3 g of ethanol, C,H,O, the temperature increases by 18.5 °C. Calculate the molar heat capacity of C,H,O. 1604.51 J/(mol."C)
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When 1.730×103 J of heat energy is added to 46.4 g of ethanol, C2H6O, the temperature increases by 15.2 ∘C. Calculate the molar heat capacity of C2H6O.