You supply thermal energy more than once in your synthesis, once to help make the reaction go and a second time to make the product boil, to overcome the intermolecular forces. We don't do much quantitative or physical chemistry in this class, but you should have some basic understanding of what thermal energy is all about.What is the (very simple) formula you could use to calculate how much thermal energy is supplied at any specific temperature"Thermal energy = ??Group of answer choicesThermal energy = RT2Thermal energy = R log TThermal energy = R ln TThermal energy = RT

Temperature remains constant at boiling point because(i) heat of vaporisation is used to overcome intermolecular forces of attraction(ii) heat of fusion is used(iii) heat of sublimation is used(iv) All of these

What is optimum temperature progression? How do you get it for an exothermic reversible reaction

Calculate the amount of heat needed to boil 167.g of hexane (C6H14), beginning from a temperature of −7.4°C. Be sure your answer has a unit symbol and the correct number of significant digits.

Calculate the amount of heat required to raise the temperature of 851.2 mL of a solution from 22.9 °C to 35.2 °C if the solution has a density of 1.04 g mL–1 and a heat capacity of 4.08 J K–1 g–1.

Pure water boils at 100 ∘ C, has a specific latent heat of vaporisation of 2260kJ/kg and a specific heat capacity of 4200J/(kg ∘ C).Part AEnergy to boil waterAll questions in this part are answered correctlyHow much energy is required for 2.0kg of water to boil away if it is already at 100 ∘ C?