The second law of thermodynamics puts a limit on the thermal efficiency of heat engines. This limit value is the efficiency of the ideal reversible engine represented by the Carnot cycle. During the lectures on physics, the emphasis on this cycle is generally so strong that students could be induced to consider the Carnot cycle as the only cycle having the best thermal efficiency. In fact, an entire class of cycles exists possessing the same maximum efficiency: this class is that of the regenerative Reitlinger cycles. Here we propose to teach also these cycles to the engineering students of physics classes, to improve their knowledge and comprehension of thermodynamics
This second Special Issue connects both the fundamental and application aspects of thermomechanical ...
This paper presents a 2T thermodynamic cycle operating around the critical locus of ethylene. The cy...
In a recently developed simple particle mechanics model in which a single particle represents the wo...
The second law of thermodynamics puts a limit on the thermal efficiency of heat engines. This limit ...
The second law of thermodynamics puts a limit on the thermal efficiency of heat engines. This limit ...
[This paper is part of the Focused Collection on Upper Division Physics Courses.] We report on sever...
Knowledge in classical thermodynamicsThe Carnot cycle is an idealization for a heat engine operating...
The Carnot cycle is central to engineering thermodynamics and its teaching. Although on the one hand...
This book results from a Special Issue related to the latest progress in the thermodynamics of machi...
Educação Superior::Ciências Exatas e da Terra::FísicaPresents part of the course, Fundamentals of Ph...
The purpose of this article is to perform a comparative study of a reversible heat engine with an id...
We report on several specific student difficulties regarding the second law of thermodynamics in the...
Part two of course materials for Statistical Physics I: PHY525, taught by Gerhard Müller at the Univ...
A theoretical thermodynamic cycle more efficient than an infinite set of Carnot engines is presented...
Despite the remarkable success of Carnot’s heat engine cycle in founding the discipline of thermodyn...
This second Special Issue connects both the fundamental and application aspects of thermomechanical ...
This paper presents a 2T thermodynamic cycle operating around the critical locus of ethylene. The cy...
In a recently developed simple particle mechanics model in which a single particle represents the wo...
The second law of thermodynamics puts a limit on the thermal efficiency of heat engines. This limit ...
The second law of thermodynamics puts a limit on the thermal efficiency of heat engines. This limit ...
[This paper is part of the Focused Collection on Upper Division Physics Courses.] We report on sever...
Knowledge in classical thermodynamicsThe Carnot cycle is an idealization for a heat engine operating...
The Carnot cycle is central to engineering thermodynamics and its teaching. Although on the one hand...
This book results from a Special Issue related to the latest progress in the thermodynamics of machi...
Educação Superior::Ciências Exatas e da Terra::FísicaPresents part of the course, Fundamentals of Ph...
The purpose of this article is to perform a comparative study of a reversible heat engine with an id...
We report on several specific student difficulties regarding the second law of thermodynamics in the...
Part two of course materials for Statistical Physics I: PHY525, taught by Gerhard Müller at the Univ...
A theoretical thermodynamic cycle more efficient than an infinite set of Carnot engines is presented...
Despite the remarkable success of Carnot’s heat engine cycle in founding the discipline of thermodyn...
This second Special Issue connects both the fundamental and application aspects of thermomechanical ...
This paper presents a 2T thermodynamic cycle operating around the critical locus of ethylene. The cy...
In a recently developed simple particle mechanics model in which a single particle represents the wo...