In a one-dimensional heat conduction problem, the boundary condition δT/δx = 0 corresponds to what type of surface?

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Multiple Choice

In a one-dimensional heat conduction problem, the boundary condition δT/δx = 0 corresponds to what type of surface?

A zero temperature gradient at a boundary means no heat can cross that boundary. In one-dimensional conduction, Fourier’s law says the heat flux q = -k dT/dx. If dT/dx is zero at the surface, then q is zero, so there is no conduction through the surface. That is the hallmark of a perfectly insulated (adiabatic) surface.

The other scenarios involve nonzero heat transfer: a convective boundary transfers heat with the ambient fluid and typically has a finite gradient; a fixed-temperature surface sets the temperature at the boundary but does not require the gradient to vanish; a radiative boundary involves heat exchange according to radiation laws and depends on temperature to the fourth power.

In a one-dimensional heat conduction problem, the boundary condition δT/δx = 0 corresponds to what type of surface?

Master the AIChE Chemical Engineering Jeopardy Exam. Ace your test with engaging flashcards and challenging multiple-choice questions, every question comes with useful hints and clear explanations. Prepare thoroughly for your success!

In a one-dimensional heat conduction problem, the boundary condition δT/δx = 0 corresponds to what type of surface?

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