By means of a representation of the elementary objects by the Lagrange density and by the commutators of the communication relations, correlations can be formed using the Fourier transform, which under the conditions ...By means of a representation of the elementary objects by the Lagrange density and by the commutators of the communication relations, correlations can be formed using the Fourier transform, which under the conditions of the Hamilton principle, describes correlation structures of the elementary objects with oscillator properties. The correlation structures obtained in this way are characterized by physical information, the essential component of which is the action. The correlation structures describe the physical properties and their interactions under the sole condition of the Hamilton’s principle. The structure, the properties and the interactions of elementary objects can be led back in this way to a fundamental four dimensional structure, which is therefore in their different modifications the building block of nature. With the presented method, an alternative interpretation of elementary physical effects to quantum mechanics is obtained. This report provides an overview of the fundamentals and statements of physical information theory and its consequences for understanding the nature of elementary objects.展开更多
BACKGROUND Sutures have been used to repair wounds since ancient times.However,the basic suture technique has not significantly changed.In Phase I of our project,we proposed a“double diabolo”suture design,using a th...BACKGROUND Sutures have been used to repair wounds since ancient times.However,the basic suture technique has not significantly changed.In Phase I of our project,we proposed a“double diabolo”suture design,using a theoretical physical study to show that this suture receives 50%less tension than conventional sutures,and so a correspondingly greater force must be applied to break it.AIM To determine whether these theoretical levels of resistance were met by the new type of suture.METHODS An observational study was performed to compare three types of sutures,using a device that exerted force on the suture until the breaking point was reached.The tension produced by this traction was measured.The following variables were considered:Tearing stress on entry/exit points,edge separation stress,and suture break stress.The study sample consisted of 30 sutures with simple interrupted stitches(Group 1),30 with continuous stitches(Group 2),and 30 with the“double diabolo”design(Group 3).RESULTS The mean degree of force required to reach the breaking point for each of these variables(tearing,separation,and final breaking)was highest in Group 3(14.56,18.28,and 21.39 kg),followed by Group 1(7.36,10.38,and 12.81 kg)and Group 2(5.77,7.7,and 8.71 kg).These differences were statistically significant(P<0.001)in all cases.CONCLUSION The experimental results show that with the“double diabolo”suture,compared with conventional sutures,greater force must be applied to reach the breaking point(almost twice as much as in the simple interrupted suture and more than double that required for the continuous suture).If these results are confirmed in Phase III(the clinical phase)of our study,we believe the double diabolo technique should be adopted as the standard approach,especially when the suture must withstand significant tension(e.g.,laparotomy closure,thoracotomy closure,diaphragm suture,or hernial orifice closure).展开更多
Using the newly developed particle swarm optimization algorithm on crystal structural prediction, we predict a new class of boron nitride with stoicMometry of NB2 at ambient pressure, which belongs to the tetragonal 1...Using the newly developed particle swarm optimization algorithm on crystal structural prediction, we predict a new class of boron nitride with stoicMometry of NB2 at ambient pressure, which belongs to the tetragonal 14m2 space group. Then, its structure, elastic properties, electronic structure, and chemical bonding are investigated by first-principles calculations with the density functional theory. The phonon calculation and elastic constants confirm that the predicted NB2 is dynamically and mechanically stable, respectively. The large bulk modulus, large shear modulus, large Young's modulus, and small Poisson's ratio show that the 14m2 NB2 should be a new superhard material with a calculated theoretical Vickers hardness value of 66 GPa. Further analysis on density of states and electron localization function demonstrate that the strong B B and 13 N covalent bonds are the main reason for its high hardness in 14m2 NB2.展开更多
The article formulates the main principle of physics, which underlies this science. This principle has been called by the author of this article the Principle of differentiation into physical and mathematical theories...The article formulates the main principle of physics, which underlies this science. This principle has been called by the author of this article the Principle of differentiation into physical and mathematical theories. The article gives examples of the application of this principle in quantum mechanics and cosmology. A more detailed proof of the principle of equivalence of the electromagnetic field and the field of strong interaction to a free material particle is given. This principle, formulated in the article “Electrodynamics in Curvilinear Coordinates and the Equation of a Geodesic Line”, revealed the nature of the mass of elementary particles and became the basis for the formulation of the Principle of differentiation into physical and mathematical theories.展开更多
In physical information theory elementary objects are represented as correlation structures with oscillator properties and characterized by action. The procedure makes it possible to describe the photons of positive a...In physical information theory elementary objects are represented as correlation structures with oscillator properties and characterized by action. The procedure makes it possible to describe the photons of positive and negative charges by positive and negative real action;gravitons are represented in equal amounts by positive and negative real, i.e., virtual action, and the components of the vacuum are characterized by deactivated virtual action. An analysis of the currents in the correlation structures of photons of static Maxwell fields with wave and particle properties, of the Maxwell vacuum and of the gravitons leads to a uniform three-dimensional representation of the structure of the action. Based on these results, a basic structure consisting of a system of oscillators is proposed, which describe the properties of charges and masses and interact with the photons of static Maxwell fields and with gravitons. All properties of the elemental components of nature can thus be traced back to a basic structure of action. It follows that nature can be derived from a uniform structure and this structure of action must therefore also be the basis of the origin of the cosmos.展开更多
The endangerment of aeolian sand is one of the most serious eco-environmental problems facing the southern suburb of Beijing. To control wind erosion is thus a matter of great urgency. This paper chooses typical land-...The endangerment of aeolian sand is one of the most serious eco-environmental problems facing the southern suburb of Beijing. To control wind erosion is thus a matter of great urgency. This paper chooses typical land-use types, i.e., cultivated land, wild grassland, drifting sandy land, etc. based on the fixed experimental observation and quantitative analysis, to conduct studies on the principles and characteristics of aeolian activities and measures controlling wind erosion in Daxing District of Beijing, The results show that: the near ground wind velocity yielded the logarithmic distribution with height; there are significant differences among different ground cover roughness; there are significant differences in the corresponding friction velocities caused by different properties of the underlying surface; there are differences in the threshold wind velocities speed in different land .use types; and there are minus exponential relations between the sediment discharge percentage and the height at a range of 0-20 cm air flow layer, Different land use types result in various degrees of coarse component. There is a significant exponential relation between sediment transport concentration and wind velocity.展开更多
The Standard Model of Particle Physics treats four fields—the gravitational, electromagnetic, weak and strong fields. These fields are assumed to converge to a single field at the big bang, but the theory has failed ...The Standard Model of Particle Physics treats four fields—the gravitational, electromagnetic, weak and strong fields. These fields are assumed to converge to a single field at the big bang, but the theory has failed to produce this convergence. Our theory proposes<em> one </em>primordial field and analyzes the evolution of this field. The key assumption is that <em>only</em> the primordial field exists—if any change is to occur, it must be based upon self-interaction, as there is nothing other than the field itself to interact with. This can be formalized as the <em>Principle</em> <em>of </em><em>Self-interaction</em> and the consequences explored. I show that this leads to the linearized Einstein field equations and discuss the key ontological implications of the theory.展开更多
In the present paper, using the method of separating coupled physic quantity bypotential operator, we derive two special minmum principles in coupled thermoelastodynamics.
Formulating accurate dynamic load models is critical for power system analysis,control,and planning.In this paper,a generic dynamic load model is proposed.The dynamic power response of the load is directly approximate...Formulating accurate dynamic load models is critical for power system analysis,control,and planning.In this paper,a generic dynamic load model is proposed.The dynamic power response of the load is directly approximated as the superposition of various mathematical functions that produce a dynamic response.Basic physical principles of the dynamic process are reflected in the mathematical functions utilized in the proposed model.First,different stages of the dynamic process are detected based on the continuity of derivatives of the measurement.Second,a complete set of mathematical functions that produce the dynamic responses in electric devices are formulated.Third,a parsimonious set of mathematical functions is selected at each stage by performing feature selection using nonlinear principal component analysis.The proposed model is further formulated based on the parsimonious set of mathematical functions at each stage.Finally,the parameters of the proposed model corresponding to different system events are solved.Based on the formulated model,its possible application in event detection is further analyzed.The proposed model is easy to implement given limited data measurement.Various tests on different system event data are performed to validate the effectiveness of the proposed model.The results show that the proposed model has excellent accuracy and robustness for different system events.展开更多
文摘By means of a representation of the elementary objects by the Lagrange density and by the commutators of the communication relations, correlations can be formed using the Fourier transform, which under the conditions of the Hamilton principle, describes correlation structures of the elementary objects with oscillator properties. The correlation structures obtained in this way are characterized by physical information, the essential component of which is the action. The correlation structures describe the physical properties and their interactions under the sole condition of the Hamilton’s principle. The structure, the properties and the interactions of elementary objects can be led back in this way to a fundamental four dimensional structure, which is therefore in their different modifications the building block of nature. With the presented method, an alternative interpretation of elementary physical effects to quantum mechanics is obtained. This report provides an overview of the fundamentals and statements of physical information theory and its consequences for understanding the nature of elementary objects.
文摘BACKGROUND Sutures have been used to repair wounds since ancient times.However,the basic suture technique has not significantly changed.In Phase I of our project,we proposed a“double diabolo”suture design,using a theoretical physical study to show that this suture receives 50%less tension than conventional sutures,and so a correspondingly greater force must be applied to break it.AIM To determine whether these theoretical levels of resistance were met by the new type of suture.METHODS An observational study was performed to compare three types of sutures,using a device that exerted force on the suture until the breaking point was reached.The tension produced by this traction was measured.The following variables were considered:Tearing stress on entry/exit points,edge separation stress,and suture break stress.The study sample consisted of 30 sutures with simple interrupted stitches(Group 1),30 with continuous stitches(Group 2),and 30 with the“double diabolo”design(Group 3).RESULTS The mean degree of force required to reach the breaking point for each of these variables(tearing,separation,and final breaking)was highest in Group 3(14.56,18.28,and 21.39 kg),followed by Group 1(7.36,10.38,and 12.81 kg)and Group 2(5.77,7.7,and 8.71 kg).These differences were statistically significant(P<0.001)in all cases.CONCLUSION The experimental results show that with the“double diabolo”suture,compared with conventional sutures,greater force must be applied to reach the breaking point(almost twice as much as in the simple interrupted suture and more than double that required for the continuous suture).If these results are confirmed in Phase III(the clinical phase)of our study,we believe the double diabolo technique should be adopted as the standard approach,especially when the suture must withstand significant tension(e.g.,laparotomy closure,thoracotomy closure,diaphragm suture,or hernial orifice closure).
基金Supported by the Natural Science Foundation of Henan Educational Committee under Grant No 2011A140006the Key Scientific and Technological Project of He'nan Province under Grant No 152102210307
文摘Using the newly developed particle swarm optimization algorithm on crystal structural prediction, we predict a new class of boron nitride with stoicMometry of NB2 at ambient pressure, which belongs to the tetragonal 14m2 space group. Then, its structure, elastic properties, electronic structure, and chemical bonding are investigated by first-principles calculations with the density functional theory. The phonon calculation and elastic constants confirm that the predicted NB2 is dynamically and mechanically stable, respectively. The large bulk modulus, large shear modulus, large Young's modulus, and small Poisson's ratio show that the 14m2 NB2 should be a new superhard material with a calculated theoretical Vickers hardness value of 66 GPa. Further analysis on density of states and electron localization function demonstrate that the strong B B and 13 N covalent bonds are the main reason for its high hardness in 14m2 NB2.
文摘The article formulates the main principle of physics, which underlies this science. This principle has been called by the author of this article the Principle of differentiation into physical and mathematical theories. The article gives examples of the application of this principle in quantum mechanics and cosmology. A more detailed proof of the principle of equivalence of the electromagnetic field and the field of strong interaction to a free material particle is given. This principle, formulated in the article “Electrodynamics in Curvilinear Coordinates and the Equation of a Geodesic Line”, revealed the nature of the mass of elementary particles and became the basis for the formulation of the Principle of differentiation into physical and mathematical theories.
文摘In physical information theory elementary objects are represented as correlation structures with oscillator properties and characterized by action. The procedure makes it possible to describe the photons of positive and negative charges by positive and negative real action;gravitons are represented in equal amounts by positive and negative real, i.e., virtual action, and the components of the vacuum are characterized by deactivated virtual action. An analysis of the currents in the correlation structures of photons of static Maxwell fields with wave and particle properties, of the Maxwell vacuum and of the gravitons leads to a uniform three-dimensional representation of the structure of the action. Based on these results, a basic structure consisting of a system of oscillators is proposed, which describe the properties of charges and masses and interact with the photons of static Maxwell fields and with gravitons. All properties of the elemental components of nature can thus be traced back to a basic structure of action. It follows that nature can be derived from a uniform structure and this structure of action must therefore also be the basis of the origin of the cosmos.
基金The national "Tenth-Five Year Plan" Key Program of Science and Technology, No.2002BA517A14 Beijing Sand Desertification and Wind Sand Countermeasure Demonstration Area Project, No.H020720110330 Key Project of Natural Science Foundation of Beijing, No.8011003
文摘The endangerment of aeolian sand is one of the most serious eco-environmental problems facing the southern suburb of Beijing. To control wind erosion is thus a matter of great urgency. This paper chooses typical land-use types, i.e., cultivated land, wild grassland, drifting sandy land, etc. based on the fixed experimental observation and quantitative analysis, to conduct studies on the principles and characteristics of aeolian activities and measures controlling wind erosion in Daxing District of Beijing, The results show that: the near ground wind velocity yielded the logarithmic distribution with height; there are significant differences among different ground cover roughness; there are significant differences in the corresponding friction velocities caused by different properties of the underlying surface; there are differences in the threshold wind velocities speed in different land .use types; and there are minus exponential relations between the sediment discharge percentage and the height at a range of 0-20 cm air flow layer, Different land use types result in various degrees of coarse component. There is a significant exponential relation between sediment transport concentration and wind velocity.
文摘The Standard Model of Particle Physics treats four fields—the gravitational, electromagnetic, weak and strong fields. These fields are assumed to converge to a single field at the big bang, but the theory has failed to produce this convergence. Our theory proposes<em> one </em>primordial field and analyzes the evolution of this field. The key assumption is that <em>only</em> the primordial field exists—if any change is to occur, it must be based upon self-interaction, as there is nothing other than the field itself to interact with. This can be formalized as the <em>Principle</em> <em>of </em><em>Self-interaction</em> and the consequences explored. I show that this leads to the linearized Einstein field equations and discuss the key ontological implications of the theory.
文摘In the present paper, using the method of separating coupled physic quantity bypotential operator, we derive two special minmum principles in coupled thermoelastodynamics.
文摘Formulating accurate dynamic load models is critical for power system analysis,control,and planning.In this paper,a generic dynamic load model is proposed.The dynamic power response of the load is directly approximated as the superposition of various mathematical functions that produce a dynamic response.Basic physical principles of the dynamic process are reflected in the mathematical functions utilized in the proposed model.First,different stages of the dynamic process are detected based on the continuity of derivatives of the measurement.Second,a complete set of mathematical functions that produce the dynamic responses in electric devices are formulated.Third,a parsimonious set of mathematical functions is selected at each stage by performing feature selection using nonlinear principal component analysis.The proposed model is further formulated based on the parsimonious set of mathematical functions at each stage.Finally,the parameters of the proposed model corresponding to different system events are solved.Based on the formulated model,its possible application in event detection is further analyzed.The proposed model is easy to implement given limited data measurement.Various tests on different system event data are performed to validate the effectiveness of the proposed model.The results show that the proposed model has excellent accuracy and robustness for different system events.
