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Internal Energy (E, also denoted by U) :Every system having some quantity of matter is associated with a definite amount of energy, called internal energyE = E Translational +ERotational + Evibrational + Ebounding+ E = EFinal + Einitial E = qv , heat supplied to a gas at constant volume, since all the heat supplied goes to increase the internal energy of the gas .It is an extensive property a state function . It is exclusively a function of temperature. If T = 0 ; E = 0 as well .The internal energy of a certain substance is given by the following equation : u = 3 pv + 84 where u is given in kJ/kg, p is in kPa, and v is in m3/kg A system composed of 3 kg of this substance expands from an initial pressure of 400 kPa and a volume of 0.2 m3 to a final pressure 100 kPa in a process in which pressure and volume are related by pv2 = constant.Q.If the expansion is quasi-static, then the value of Q is :a)80 kJb)60 kJc)40 kJd)120 kJCorrect answer is option 'A'. Can you explain this answer? for JEE 2024 is part of JEE preparation. The Question and answers have been prepared
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the JEE exam syllabus. Information about Internal Energy (E, also denoted by U) :Every system having some quantity of matter is associated with a definite amount of energy, called internal energyE = E Translational +ERotational + Evibrational + Ebounding+ E = EFinal + Einitial E = qv , heat supplied to a gas at constant volume, since all the heat supplied goes to increase the internal energy of the gas .It is an extensive property a state function . It is exclusively a function of temperature. If T = 0 ; E = 0 as well .The internal energy of a certain substance is given by the following equation : u = 3 pv + 84 where u is given in kJ/kg, p is in kPa, and v is in m3/kg A system composed of 3 kg of this substance expands from an initial pressure of 400 kPa and a volume of 0.2 m3 to a final pressure 100 kPa in a process in which pressure and volume are related by pv2 = constant.Q.If the expansion is quasi-static, then the value of Q is :a)80 kJb)60 kJc)40 kJd)120 kJCorrect answer is option 'A'. Can you explain this answer? covers all topics & solutions for JEE 2024 Exam.
Find important definitions, questions, meanings, examples, exercises and tests below for Internal Energy (E, also denoted by U) :Every system having some quantity of matter is associated with a definite amount of energy, called internal energyE = E Translational +ERotational + Evibrational + Ebounding+ E = EFinal + Einitial E = qv , heat supplied to a gas at constant volume, since all the heat supplied goes to increase the internal energy of the gas .It is an extensive property a state function . It is exclusively a function of temperature. If T = 0 ; E = 0 as well .The internal energy of a certain substance is given by the following equation : u = 3 pv + 84 where u is given in kJ/kg, p is in kPa, and v is in m3/kg A system composed of 3 kg of this substance expands from an initial pressure of 400 kPa and a volume of 0.2 m3 to a final pressure 100 kPa in a process in which pressure and volume are related by pv2 = constant.Q.If the expansion is quasi-static, then the value of Q is :a)80 kJb)60 kJc)40 kJd)120 kJCorrect answer is option 'A'. Can you explain this answer?.
Solutions for Internal Energy (E, also denoted by U) :Every system having some quantity of matter is associated with a definite amount of energy, called internal energyE = E Translational +ERotational + Evibrational + Ebounding+ E = EFinal + Einitial E = qv , heat supplied to a gas at constant volume, since all the heat supplied goes to increase the internal energy of the gas .It is an extensive property a state function . It is exclusively a function of temperature. If T = 0 ; E = 0 as well .The internal energy of a certain substance is given by the following equation : u = 3 pv + 84 where u is given in kJ/kg, p is in kPa, and v is in m3/kg A system composed of 3 kg of this substance expands from an initial pressure of 400 kPa and a volume of 0.2 m3 to a final pressure 100 kPa in a process in which pressure and volume are related by pv2 = constant.Q.If the expansion is quasi-static, then the value of Q is :a)80 kJb)60 kJc)40 kJd)120 kJCorrect answer is option 'A'. 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 Internal Energy (E, also denoted by U) :Every system having some quantity of matter is associated with a definite amount of energy, called internal energyE = E Translational +ERotational + Evibrational + Ebounding+ E = EFinal + Einitial E = qv , heat supplied to a gas at constant volume, since all the heat supplied goes to increase the internal energy of the gas .It is an extensive property a state function . It is exclusively a function of temperature. If T = 0 ; E = 0 as well .The internal energy of a certain substance is given by the following equation : u = 3 pv + 84 where u is given in kJ/kg, p is in kPa, and v is in m3/kg A system composed of 3 kg of this substance expands from an initial pressure of 400 kPa and a volume of 0.2 m3 to a final pressure 100 kPa in a process in which pressure and volume are related by pv2 = constant.Q.If the expansion is quasi-static, then the value of Q is :a)80 kJb)60 kJc)40 kJd)120 kJCorrect answer is option 'A'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of
Internal Energy (E, also denoted by U) :Every system having some quantity of matter is associated with a definite amount of energy, called internal energyE = E Translational +ERotational + Evibrational + Ebounding+ E = EFinal + Einitial E = qv , heat supplied to a gas at constant volume, since all the heat supplied goes to increase the internal energy of the gas .It is an extensive property a state function . It is exclusively a function of temperature. If T = 0 ; E = 0 as well .The internal energy of a certain substance is given by the following equation : u = 3 pv + 84 where u is given in kJ/kg, p is in kPa, and v is in m3/kg A system composed of 3 kg of this substance expands from an initial pressure of 400 kPa and a volume of 0.2 m3 to a final pressure 100 kPa in a process in which pressure and volume are related by pv2 = constant.Q.If the expansion is quasi-static, then the value of Q is :a)80 kJb)60 kJc)40 kJd)120 kJCorrect answer is option 'A'. Can you explain this answer?, a detailed solution for Internal Energy (E, also denoted by U) :Every system having some quantity of matter is associated with a definite amount of energy, called internal energyE = E Translational +ERotational + Evibrational + Ebounding+ E = EFinal + Einitial E = qv , heat supplied to a gas at constant volume, since all the heat supplied goes to increase the internal energy of the gas .It is an extensive property a state function . It is exclusively a function of temperature. If T = 0 ; E = 0 as well .The internal energy of a certain substance is given by the following equation : u = 3 pv + 84 where u is given in kJ/kg, p is in kPa, and v is in m3/kg A system composed of 3 kg of this substance expands from an initial pressure of 400 kPa and a volume of 0.2 m3 to a final pressure 100 kPa in a process in which pressure and volume are related by pv2 = constant.Q.If the expansion is quasi-static, then the value of Q is :a)80 kJb)60 kJc)40 kJd)120 kJCorrect answer is option 'A'. Can you explain this answer? has been provided alongside types of Internal Energy (E, also denoted by U) :Every system having some quantity of matter is associated with a definite amount of energy, called internal energyE = E Translational +ERotational + Evibrational + Ebounding+ E = EFinal + Einitial E = qv , heat supplied to a gas at constant volume, since all the heat supplied goes to increase the internal energy of the gas .It is an extensive property a state function . It is exclusively a function of temperature. If T = 0 ; E = 0 as well .The internal energy of a certain substance is given by the following equation : u = 3 pv + 84 where u is given in kJ/kg, p is in kPa, and v is in m3/kg A system composed of 3 kg of this substance expands from an initial pressure of 400 kPa and a volume of 0.2 m3 to a final pressure 100 kPa in a process in which pressure and volume are related by pv2 = constant.Q.If the expansion is quasi-static, then the value of Q is :a)80 kJb)60 kJc)40 kJd)120 kJCorrect answer is option 'A'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice Internal Energy (E, also denoted by U) :Every system having some quantity of matter is associated with a definite amount of energy, called internal energyE = E Translational +ERotational + Evibrational + Ebounding+ E = EFinal + Einitial E = qv , heat supplied to a gas at constant volume, since all the heat supplied goes to increase the internal energy of the gas .It is an extensive property a state function . It is exclusively a function of temperature. If T = 0 ; E = 0 as well .The internal energy of a certain substance is given by the following equation : u = 3 pv + 84 where u is given in kJ/kg, p is in kPa, and v is in m3/kg A system composed of 3 kg of this substance expands from an initial pressure of 400 kPa and a volume of 0.2 m3 to a final pressure 100 kPa in a process in which pressure and volume are related by pv2 = constant.Q.If the expansion is quasi-static, then the value of Q is :a)80 kJb)60 kJc)40 kJd)120 kJCorrect answer is option 'A'. Can you explain this answer? tests, examples and also practice JEE tests.