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Papers by Muhammed Emre KUZUCU

Momentum: physics education journal, Jan 31, 2022

This work reports a trouble-free alternative measuring approach for instructing the puzzling conc... more This work reports a trouble-free alternative measuring approach for instructing the puzzling concept of thermal conductivity. In order to accomplish the task, a basic daily used home equipment is employed together with a mathematical modelling approach. Specifically, a simple approach to measure the thermal conductivity coefficient is described and temperature dependence of the thermal conductivity is mathematically modelled. Developed method is interesting in the sense that the experimental equipment is very practical and minimal costing, hence the approach offers physics educators fresh teaching routes and opportunities to clarify the puzzling concept of thermal conductivity and related concepts.

Journal of physics: theories and applications, Mar 28, 2022

Present study focuses on some foundational problems of quantum theory specifically deals with the... more Present study focuses on some foundational problems of quantum theory specifically deals with the concept of probability density and relating introductory problems. In this sense, the work initially investigates the origins of the general probability theory and reexamines the concepts of spatial and temporal probability densities based on genuine epistemological and ontological arguments. In order to tackle the foundational problems, standard theory is primarily memorised and criticized scientifically and philosophically in terms of foundationally disappearing term of time dependent potential energy within the time and space dependent Schrödinger wave equation. Based on those arguments, the problematic inconsistency between the spatial and temporal probability density functions is underlined. Given the problem, an original approach previously suggested, is concisely described and extended to resolve the existing problem. The novel approach, based on a novel time dependent Schrödinger wave equation, resolves the discrepancy with the classical wave equation and also leads to time dependent temporal probability densities even for the time free potential energies. Novel temporal probability density function is also normalized and has a fluctuation period of around 10-16 s which is very short compared to the atomic time scales.

Journal of Physics: Theories and Applications

Present study focuses on some foundational problems of quantum theory specifically deals with the... more Present study focuses on some foundational problems of quantum theory specifically deals with the concept of probability density and relating introductory problems. In this sense, the work initially investigates the origins of the general probability theory and re-examines the concepts of spatial and temporal probability densities based on genuine epistemological and ontological arguments. In order to tackle the foundational problems, standard theory is primarily memorised and criticized scientifically and philosophically in terms of foundationally disappearing term of time dependent potential energy within the time and space dependent Schrödinger wave equation. Based on those arguments, the problematic inconsistency between the spatial and temporal probability density functions is underlined. Given the problem, an original approach previously suggested, is concisely described and extended to resolve the existing problem. The novel approach, based on a novel time dependent Schröding...

Present study focuses on some foundational problems of quantum theory specifically deals with the... more Present study focuses on some foundational problems of quantum theory specifically deals with the concept of probability density and relating introductory problems. In this sense, the work initially investigates the origins of the general probability theory and re-examines the concepts of spatial and temporal probability densities based on genuine epistemological and ontological arguments. In order to tackle the foundational problems, standard theory is primarily memorised and criticized scientifically and philosophically in terms of foundationally disappearing term of time dependent potential energy within the time and space dependent Schrödinger wave equation. Based on those arguments, the problematic inconsistency between the spatial and temporal probability density functions is underlined. Given the problem, an original approach previously suggested, is concisely described and extended to resolve the existing problem. The novel approach, based on a novel time dependent Schrödinger wave equation, resolves the discrepancy with the classical wave equation and also leads to time dependent temporal probability densities even for the time free potential energies. Novel temporal probability density function is also normalized and has a fluctuation period of around 10-16 s which is very short compared to the atomic time scales.

Momentum: Physics Education Journal, 2022

This work reports a trouble-free alternative measuring approach for instructing the puzzling conc... more This work reports a trouble-free alternative measuring approach for instructing the puzzling concept of thermal conductivity. In order to accomplish the task, a basic daily used home equipment is employed together with a mathematical modelling approach. Specifically, a simple approach to measure the thermal conductivity coefficient is described and temperature dependence of the thermal conductivity is mathematically modelled. Developed method is interesting in the sense that the experimental equipment is very practical and minimal costing, hence the approach offers physics educators fresh teaching routes and opportunities to clarify the puzzling concept of thermal conductivity and related concepts.

Momentum: physics education journal, Jan 31, 2022

This work reports a trouble-free alternative measuring approach for instructing the puzzling conc... more This work reports a trouble-free alternative measuring approach for instructing the puzzling concept of thermal conductivity. In order to accomplish the task, a basic daily used home equipment is employed together with a mathematical modelling approach. Specifically, a simple approach to measure the thermal conductivity coefficient is described and temperature dependence of the thermal conductivity is mathematically modelled. Developed method is interesting in the sense that the experimental equipment is very practical and minimal costing, hence the approach offers physics educators fresh teaching routes and opportunities to clarify the puzzling concept of thermal conductivity and related concepts.

Journal of physics: theories and applications, Mar 28, 2022

Present study focuses on some foundational problems of quantum theory specifically deals with the... more Present study focuses on some foundational problems of quantum theory specifically deals with the concept of probability density and relating introductory problems. In this sense, the work initially investigates the origins of the general probability theory and reexamines the concepts of spatial and temporal probability densities based on genuine epistemological and ontological arguments. In order to tackle the foundational problems, standard theory is primarily memorised and criticized scientifically and philosophically in terms of foundationally disappearing term of time dependent potential energy within the time and space dependent Schrödinger wave equation. Based on those arguments, the problematic inconsistency between the spatial and temporal probability density functions is underlined. Given the problem, an original approach previously suggested, is concisely described and extended to resolve the existing problem. The novel approach, based on a novel time dependent Schrödinger wave equation, resolves the discrepancy with the classical wave equation and also leads to time dependent temporal probability densities even for the time free potential energies. Novel temporal probability density function is also normalized and has a fluctuation period of around 10-16 s which is very short compared to the atomic time scales.

Journal of Physics: Theories and Applications

Present study focuses on some foundational problems of quantum theory specifically deals with the... more Present study focuses on some foundational problems of quantum theory specifically deals with the concept of probability density and relating introductory problems. In this sense, the work initially investigates the origins of the general probability theory and re-examines the concepts of spatial and temporal probability densities based on genuine epistemological and ontological arguments. In order to tackle the foundational problems, standard theory is primarily memorised and criticized scientifically and philosophically in terms of foundationally disappearing term of time dependent potential energy within the time and space dependent Schrödinger wave equation. Based on those arguments, the problematic inconsistency between the spatial and temporal probability density functions is underlined. Given the problem, an original approach previously suggested, is concisely described and extended to resolve the existing problem. The novel approach, based on a novel time dependent Schröding...

Present study focuses on some foundational problems of quantum theory specifically deals with the... more Present study focuses on some foundational problems of quantum theory specifically deals with the concept of probability density and relating introductory problems. In this sense, the work initially investigates the origins of the general probability theory and re-examines the concepts of spatial and temporal probability densities based on genuine epistemological and ontological arguments. In order to tackle the foundational problems, standard theory is primarily memorised and criticized scientifically and philosophically in terms of foundationally disappearing term of time dependent potential energy within the time and space dependent Schrödinger wave equation. Based on those arguments, the problematic inconsistency between the spatial and temporal probability density functions is underlined. Given the problem, an original approach previously suggested, is concisely described and extended to resolve the existing problem. The novel approach, based on a novel time dependent Schrödinger wave equation, resolves the discrepancy with the classical wave equation and also leads to time dependent temporal probability densities even for the time free potential energies. Novel temporal probability density function is also normalized and has a fluctuation period of around 10-16 s which is very short compared to the atomic time scales.

Momentum: Physics Education Journal, 2022

This work reports a trouble-free alternative measuring approach for instructing the puzzling conc... more This work reports a trouble-free alternative measuring approach for instructing the puzzling concept of thermal conductivity. In order to accomplish the task, a basic daily used home equipment is employed together with a mathematical modelling approach. Specifically, a simple approach to measure the thermal conductivity coefficient is described and temperature dependence of the thermal conductivity is mathematically modelled. Developed method is interesting in the sense that the experimental equipment is very practical and minimal costing, hence the approach offers physics educators fresh teaching routes and opportunities to clarify the puzzling concept of thermal conductivity and related concepts.