Heat-Flow-Energy-Shoe-Box Models

These models and simulations have been tagged “Heat-Flow-Energy-Shoe-Box”.

This is a model of the change in temperature of a shoe box placed in an environment.  Changes in the design of the box can change the thermal conductivity of the box. Data from shoe box can be entered and compared to model as a way to determine (relative) thermal conductivity.
This is a model of the change in temperature of a shoe box placed in an environment.  Changes in the design of the box can change the thermal conductivity of the box. Data from shoe box can be entered and compared to model as a way to determine (relative) thermal conductivity.
This is a model of the change in temperature of a shoe box placed in an environment.  Changes in the design of the box can change the thermal conductivity of the box. Data from shoe box can be entered and compared to model as a way to determine (relative) thermal conductivity.
This is a model of the change in temperature of a shoe box placed in an environment.  Changes in the design of the box can change the thermal conductivity of the box. Data from shoe box can be entered and compared to model as a way to determine (relative) thermal conductivity.
This is a model of the change in temperature of a shoe box placed in an environment.  Changes in the design of the box can change the thermal conductivity of the box. Data from shoe box can be entered and compared to model as a way to determine (relative) thermal conductivity.
This is a model of the change in temperature of a shoe box placed in an environment.  Changes in the design of the box can change the thermal conductivity of the box. Data from shoe box can be entered and compared to model as a way to determine (relative) thermal conductivity.
This is a model of the change in temperature of a shoe box placed in an environment.  Changes in the design of the box can change the thermal conductivity of the box. Data from shoe box can be entered and compared to model as a way to determine (relative) thermal conductivity.
This is a model of the change in temperature of a shoe box placed in an environment.  Changes in the design of the box can change the thermal conductivity of the box. Data from shoe box can be entered and compared to model as a way to determine (relative) thermal conductivity.
last month
This is a model of the change in temperature of a shoe box placed in an environment.  Changes in the design of the box can change the thermal conductivity of the box. Data from shoe box can be entered and compared to model as a way to determine (relative) thermal conductivity.
This is a model of the change in temperature of a shoe box placed in an environment.  Changes in the design of the box can change the thermal conductivity of the box. Data from shoe box can be entered and compared to model as a way to determine (relative) thermal conductivity.
last month