Question 9 of 28 > When 1427 J of heat energy is added to 44.4 g of hexane, CH4, the temperature increases by 14.2 °C. Calculate the molar heat capacity of CH4 Cp = J/(mol 'C)
uestion 8 of 25 > When 2.190 x 10J of heat energy is added to 48.4 g of hexane, CH,,, the temperature increases by 20.0°C. Calculate the molar heat capacity of CH4 Cp = J/(mol•°C)
When 1491 J of heat energy is added to 38.3 g of hexane, CH4, the temperature increases by 17.2°C. Calculate the molar heat capacity of CH. J /(mol·°C)
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 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
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)
When 1728 J of heat energy is added to 47.6 g of ethanol, C, H, 0, the temperature increases by 14.8 "C. Calculate the molar heat capacity of C,H,O. J/(mol-'C) Срт
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)
When 2092 J of heat energy is added to 46.1 g of ethanol, C,H,O, the temperature increases by 18.5 °C. Calculate the molar heat capacity of C,H,O. Cp = J/(mol. C)
A 59.16 g sample of a substance is initially at 27.0 °C. After absorbing 1969 J of heat, the temperature of the substance is 175.1 °C. What is the specific heat (c) of the substance? When 1521 J of heat energy is added to 38.2 g of hexane, CH4, the temperature increases by 17.6°C. Calculate the molar heat capacity of CH4 Cp = J/(mol·°C)