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Gases (such as air) can be modeled as a fluid material type in a HEAT simulation due to the similarity of heat transport mechanisms for both fluid and gas.
Which of the following actions in the simulation setup will likely affect the results of simulation?
Which of the following attributes (results) are available from the “boundaries” dataset in the HEAT solver object after running the simulation?
When performing a simulation in HEAT, what is the recommended first step in the workflow?
If a boundary of simulation does not have any boundary conditions assigned, the error checking and diagnostics tool will remind you that the boundary will be considered:
Assuming that the temperature on the left edge of thin-film in our thin-film heat flow simulation is kept at 500K rather than 400, what would be the percentage of increase in heat loss when compared to the case with 400K?
Enter your answer as an integer.
In the simulation of the heat flow in an Si thin-film as done in the My First Simulation section, rather than adding a second object to define Air surrounding the thin-film, we could choose Air as the background material in the simulation region settings.
Download the HEAT_first_simulation_setup.ldev file which is the simulation of the heat flow in a Si thin-film as done in the My First Simulation section, what is the temperature in the middle point of the thin-film?
Insert your answer as a number with one decimal places precision. For example, if the answer is 0.254912, type in 0.2.