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Heat of reaction is the change in enthalpy or internal energy as represented by a balanced thermochemical
equation. The amount of energy released during a chemical change depends upon the state of reactants
and products, the conditions of pressure and volume at which reaction is carried out, and temperature.
The variation of heat of reaction (ΔH or ΔE) with temperature is given as ΔH2 – ΔH1 = ΔCp [T2 – T1] or ΔE2
– ΔE1 = ΔCv (T2 – T1). Standard heat enthalpy of elements in their most stable state is assumed to be zero
whereas standard heat enthalpy of compound is referred as heat of formation of that compound at 1 atm
pressure and 25°C. Oxidation of N2 to N2O, NO, NO2 shows absorption of energy whereas heat of combustion
of N2 is exothermic like other heat of combustion.
equation. The amount of energy released during a chemical change depends upon the state of reactants
and products, the conditions of pressure and volume at which reaction is carried out, and temperature.
The variation of heat of reaction (ΔH or ΔE) with temperature is given as ΔH2 – ΔH1 = ΔCp [T2 – T1] or ΔE2
– ΔE1 = ΔCv (T2 – T1). Standard heat enthalpy of elements in their most stable state is assumed to be zero
whereas standard heat enthalpy of compound is referred as heat of formation of that compound at 1 atm
pressure and 25°C. Oxidation of N2 to N2O, NO, NO2 shows absorption of energy whereas heat of combustion
of N2 is exothermic like other heat of combustion.
Q. Heat of combustion of carbon in diamond and amorphous form are -94.3 and -97.6 kcal/mole. The heat required to convert 6 g carbon from diamond to amorphous form is :
- a)-1.65 kcal
- b)+1.65 kcal
- c)-3.3 kcal
- d)+3.3 kcal
Correct answer is option 'B'. Can you explain this answer?
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Heat of reaction is the change in enthalpy or internal energy as represented by a balanced thermochemicalequation. The amount of energy released during a chemical change depends upon the state of reactantsand products, the conditions of pressure and volume at which reaction is carried out, and temperature.The variation of heat of reaction (ΔH or ΔE) with temperature is given as ΔH2 – ΔH1 = ΔCp [T2 – T1] or ΔE2– ΔE1 = ΔCv (T2 – T1). Standard heat enthalpy of elements in their most stable state is assumed to be zerowhereas standard heat enthalpy of compound is referred as heat of formation of that compound at 1 atmpressure and 25°C. Oxidation of N2 to N2O, NO, NO2 shows absorption of energy whereas heat of combustionof N2 is exothermic like other heat of combustion.Q. Heat of combustion of carbon in diamond and amorphous form are -94.3 and -97.6 kcal/mole. The heat required to convert 6 g carbon from diamond to amorphous form is :a)-1.65 kcalb)+1.65 kcalc)-3.3 kcald)+3.3 kcalCorrect answer is option 'B'. Can you explain this answer?
Question Description
Heat of reaction is the change in enthalpy or internal energy as represented by a balanced thermochemicalequation. The amount of energy released during a chemical change depends upon the state of reactantsand products, the conditions of pressure and volume at which reaction is carried out, and temperature.The variation of heat of reaction (ΔH or ΔE) with temperature is given as ΔH2 – ΔH1 = ΔCp [T2 – T1] or ΔE2– ΔE1 = ΔCv (T2 – T1). Standard heat enthalpy of elements in their most stable state is assumed to be zerowhereas standard heat enthalpy of compound is referred as heat of formation of that compound at 1 atmpressure and 25°C. Oxidation of N2 to N2O, NO, NO2 shows absorption of energy whereas heat of combustionof N2 is exothermic like other heat of combustion.Q. Heat of combustion of carbon in diamond and amorphous form are -94.3 and -97.6 kcal/mole. The heat required to convert 6 g carbon from diamond to amorphous form is :a)-1.65 kcalb)+1.65 kcalc)-3.3 kcald)+3.3 kcalCorrect answer is option 'B'. Can you explain this answer? for JEE 2024 is part of JEE preparation. The Question and answers have been prepared according to the JEE exam syllabus. Information about Heat of reaction is the change in enthalpy or internal energy as represented by a balanced thermochemicalequation. The amount of energy released during a chemical change depends upon the state of reactantsand products, the conditions of pressure and volume at which reaction is carried out, and temperature.The variation of heat of reaction (ΔH or ΔE) with temperature is given as ΔH2 – ΔH1 = ΔCp [T2 – T1] or ΔE2– ΔE1 = ΔCv (T2 – T1). Standard heat enthalpy of elements in their most stable state is assumed to be zerowhereas standard heat enthalpy of compound is referred as heat of formation of that compound at 1 atmpressure and 25°C. Oxidation of N2 to N2O, NO, NO2 shows absorption of energy whereas heat of combustionof N2 is exothermic like other heat of combustion.Q. Heat of combustion of carbon in diamond and amorphous form are -94.3 and -97.6 kcal/mole. The heat required to convert 6 g carbon from diamond to amorphous form is :a)-1.65 kcalb)+1.65 kcalc)-3.3 kcald)+3.3 kcalCorrect answer is option 'B'. Can you explain this answer? covers all topics & solutions for JEE 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Heat of reaction is the change in enthalpy or internal energy as represented by a balanced thermochemicalequation. The amount of energy released during a chemical change depends upon the state of reactantsand products, the conditions of pressure and volume at which reaction is carried out, and temperature.The variation of heat of reaction (ΔH or ΔE) with temperature is given as ΔH2 – ΔH1 = ΔCp [T2 – T1] or ΔE2– ΔE1 = ΔCv (T2 – T1). Standard heat enthalpy of elements in their most stable state is assumed to be zerowhereas standard heat enthalpy of compound is referred as heat of formation of that compound at 1 atmpressure and 25°C. Oxidation of N2 to N2O, NO, NO2 shows absorption of energy whereas heat of combustionof N2 is exothermic like other heat of combustion.Q. Heat of combustion of carbon in diamond and amorphous form are -94.3 and -97.6 kcal/mole. The heat required to convert 6 g carbon from diamond to amorphous form is :a)-1.65 kcalb)+1.65 kcalc)-3.3 kcald)+3.3 kcalCorrect answer is option 'B'. Can you explain this answer?.
Heat of reaction is the change in enthalpy or internal energy as represented by a balanced thermochemicalequation. The amount of energy released during a chemical change depends upon the state of reactantsand products, the conditions of pressure and volume at which reaction is carried out, and temperature.The variation of heat of reaction (ΔH or ΔE) with temperature is given as ΔH2 – ΔH1 = ΔCp [T2 – T1] or ΔE2– ΔE1 = ΔCv (T2 – T1). Standard heat enthalpy of elements in their most stable state is assumed to be zerowhereas standard heat enthalpy of compound is referred as heat of formation of that compound at 1 atmpressure and 25°C. Oxidation of N2 to N2O, NO, NO2 shows absorption of energy whereas heat of combustionof N2 is exothermic like other heat of combustion.Q. Heat of combustion of carbon in diamond and amorphous form are -94.3 and -97.6 kcal/mole. The heat required to convert 6 g carbon from diamond to amorphous form is :a)-1.65 kcalb)+1.65 kcalc)-3.3 kcald)+3.3 kcalCorrect answer is option 'B'. Can you explain this answer? for JEE 2024 is part of JEE preparation. The Question and answers have been prepared according to the JEE exam syllabus. Information about Heat of reaction is the change in enthalpy or internal energy as represented by a balanced thermochemicalequation. The amount of energy released during a chemical change depends upon the state of reactantsand products, the conditions of pressure and volume at which reaction is carried out, and temperature.The variation of heat of reaction (ΔH or ΔE) with temperature is given as ΔH2 – ΔH1 = ΔCp [T2 – T1] or ΔE2– ΔE1 = ΔCv (T2 – T1). Standard heat enthalpy of elements in their most stable state is assumed to be zerowhereas standard heat enthalpy of compound is referred as heat of formation of that compound at 1 atmpressure and 25°C. Oxidation of N2 to N2O, NO, NO2 shows absorption of energy whereas heat of combustionof N2 is exothermic like other heat of combustion.Q. Heat of combustion of carbon in diamond and amorphous form are -94.3 and -97.6 kcal/mole. The heat required to convert 6 g carbon from diamond to amorphous form is :a)-1.65 kcalb)+1.65 kcalc)-3.3 kcald)+3.3 kcalCorrect answer is option 'B'. Can you explain this answer? covers all topics & solutions for JEE 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Heat of reaction is the change in enthalpy or internal energy as represented by a balanced thermochemicalequation. The amount of energy released during a chemical change depends upon the state of reactantsand products, the conditions of pressure and volume at which reaction is carried out, and temperature.The variation of heat of reaction (ΔH or ΔE) with temperature is given as ΔH2 – ΔH1 = ΔCp [T2 – T1] or ΔE2– ΔE1 = ΔCv (T2 – T1). Standard heat enthalpy of elements in their most stable state is assumed to be zerowhereas standard heat enthalpy of compound is referred as heat of formation of that compound at 1 atmpressure and 25°C. Oxidation of N2 to N2O, NO, NO2 shows absorption of energy whereas heat of combustionof N2 is exothermic like other heat of combustion.Q. Heat of combustion of carbon in diamond and amorphous form are -94.3 and -97.6 kcal/mole. The heat required to convert 6 g carbon from diamond to amorphous form is :a)-1.65 kcalb)+1.65 kcalc)-3.3 kcald)+3.3 kcalCorrect answer is option 'B'. Can you explain this answer?.
Solutions for Heat of reaction is the change in enthalpy or internal energy as represented by a balanced thermochemicalequation. The amount of energy released during a chemical change depends upon the state of reactantsand products, the conditions of pressure and volume at which reaction is carried out, and temperature.The variation of heat of reaction (ΔH or ΔE) with temperature is given as ΔH2 – ΔH1 = ΔCp [T2 – T1] or ΔE2– ΔE1 = ΔCv (T2 – T1). Standard heat enthalpy of elements in their most stable state is assumed to be zerowhereas standard heat enthalpy of compound is referred as heat of formation of that compound at 1 atmpressure and 25°C. Oxidation of N2 to N2O, NO, NO2 shows absorption of energy whereas heat of combustionof N2 is exothermic like other heat of combustion.Q. Heat of combustion of carbon in diamond and amorphous form are -94.3 and -97.6 kcal/mole. The heat required to convert 6 g carbon from diamond to amorphous form is :a)-1.65 kcalb)+1.65 kcalc)-3.3 kcald)+3.3 kcalCorrect answer is option 'B'. Can you explain this answer? in English & in Hindi are available as part of our courses for JEE.
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Here you can find the meaning of Heat of reaction is the change in enthalpy or internal energy as represented by a balanced thermochemicalequation. The amount of energy released during a chemical change depends upon the state of reactantsand products, the conditions of pressure and volume at which reaction is carried out, and temperature.The variation of heat of reaction (ΔH or ΔE) with temperature is given as ΔH2 – ΔH1 = ΔCp [T2 – T1] or ΔE2– ΔE1 = ΔCv (T2 – T1). Standard heat enthalpy of elements in their most stable state is assumed to be zerowhereas standard heat enthalpy of compound is referred as heat of formation of that compound at 1 atmpressure and 25°C. Oxidation of N2 to N2O, NO, NO2 shows absorption of energy whereas heat of combustionof N2 is exothermic like other heat of combustion.Q. Heat of combustion of carbon in diamond and amorphous form are -94.3 and -97.6 kcal/mole. The heat required to convert 6 g carbon from diamond to amorphous form is :a)-1.65 kcalb)+1.65 kcalc)-3.3 kcald)+3.3 kcalCorrect answer is option 'B'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of
Heat of reaction is the change in enthalpy or internal energy as represented by a balanced thermochemicalequation. The amount of energy released during a chemical change depends upon the state of reactantsand products, the conditions of pressure and volume at which reaction is carried out, and temperature.The variation of heat of reaction (ΔH or ΔE) with temperature is given as ΔH2 – ΔH1 = ΔCp [T2 – T1] or ΔE2– ΔE1 = ΔCv (T2 – T1). Standard heat enthalpy of elements in their most stable state is assumed to be zerowhereas standard heat enthalpy of compound is referred as heat of formation of that compound at 1 atmpressure and 25°C. Oxidation of N2 to N2O, NO, NO2 shows absorption of energy whereas heat of combustionof N2 is exothermic like other heat of combustion.Q. Heat of combustion of carbon in diamond and amorphous form are -94.3 and -97.6 kcal/mole. The heat required to convert 6 g carbon from diamond to amorphous form is :a)-1.65 kcalb)+1.65 kcalc)-3.3 kcald)+3.3 kcalCorrect answer is option 'B'. Can you explain this answer?, a detailed solution for Heat of reaction is the change in enthalpy or internal energy as represented by a balanced thermochemicalequation. The amount of energy released during a chemical change depends upon the state of reactantsand products, the conditions of pressure and volume at which reaction is carried out, and temperature.The variation of heat of reaction (ΔH or ΔE) with temperature is given as ΔH2 – ΔH1 = ΔCp [T2 – T1] or ΔE2– ΔE1 = ΔCv (T2 – T1). Standard heat enthalpy of elements in their most stable state is assumed to be zerowhereas standard heat enthalpy of compound is referred as heat of formation of that compound at 1 atmpressure and 25°C. Oxidation of N2 to N2O, NO, NO2 shows absorption of energy whereas heat of combustionof N2 is exothermic like other heat of combustion.Q. Heat of combustion of carbon in diamond and amorphous form are -94.3 and -97.6 kcal/mole. The heat required to convert 6 g carbon from diamond to amorphous form is :a)-1.65 kcalb)+1.65 kcalc)-3.3 kcald)+3.3 kcalCorrect answer is option 'B'. Can you explain this answer? has been provided alongside types of Heat of reaction is the change in enthalpy or internal energy as represented by a balanced thermochemicalequation. The amount of energy released during a chemical change depends upon the state of reactantsand products, the conditions of pressure and volume at which reaction is carried out, and temperature.The variation of heat of reaction (ΔH or ΔE) with temperature is given as ΔH2 – ΔH1 = ΔCp [T2 – T1] or ΔE2– ΔE1 = ΔCv (T2 – T1). Standard heat enthalpy of elements in their most stable state is assumed to be zerowhereas standard heat enthalpy of compound is referred as heat of formation of that compound at 1 atmpressure and 25°C. Oxidation of N2 to N2O, NO, NO2 shows absorption of energy whereas heat of combustionof N2 is exothermic like other heat of combustion.Q. Heat of combustion of carbon in diamond and amorphous form are -94.3 and -97.6 kcal/mole. The heat required to convert 6 g carbon from diamond to amorphous form is :a)-1.65 kcalb)+1.65 kcalc)-3.3 kcald)+3.3 kcalCorrect answer is option 'B'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice Heat of reaction is the change in enthalpy or internal energy as represented by a balanced thermochemicalequation. The amount of energy released during a chemical change depends upon the state of reactantsand products, the conditions of pressure and volume at which reaction is carried out, and temperature.The variation of heat of reaction (ΔH or ΔE) with temperature is given as ΔH2 – ΔH1 = ΔCp [T2 – T1] or ΔE2– ΔE1 = ΔCv (T2 – T1). Standard heat enthalpy of elements in their most stable state is assumed to be zerowhereas standard heat enthalpy of compound is referred as heat of formation of that compound at 1 atmpressure and 25°C. Oxidation of N2 to N2O, NO, NO2 shows absorption of energy whereas heat of combustionof N2 is exothermic like other heat of combustion.Q. Heat of combustion of carbon in diamond and amorphous form are -94.3 and -97.6 kcal/mole. The heat required to convert 6 g carbon from diamond to amorphous form is :a)-1.65 kcalb)+1.65 kcalc)-3.3 kcald)+3.3 kcalCorrect answer is option 'B'. Can you explain this answer? tests, examples and also practice JEE tests.
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