% Time constant tau = (rho V cp)/(h*As);
: Geometry → Mesh → Physics → Solve → Post-process.
It seems like you're looking for a detailed report on heat transfer lessons with examples solved using MATLAB, specifically with a focus on rapidshare and patched versions. I'll provide a general overview of heat transfer and some examples, and then discuss how MATLAB can be used to solve these problems.
h = 10; % convective heat transfer coefficient (W/m^2-K) A = 1; % surface area (m^2) T_s = 100; % surface temperature (°C) T_f = 50; % fluid temperature (°C)
The heat transfer rate between the two surfaces is 3151 W.
% Time constant tau = (rho V cp)/(h*As); % Time constant tau = (rho V cp)/(h*As);
: Geometry → Mesh → Physics → Solve → Post-process. % Time constant tau = (rho V cp)/(h*As);
It seems like you're looking for a detailed report on heat transfer lessons with examples solved using MATLAB, specifically with a focus on rapidshare and patched versions. I'll provide a general overview of heat transfer and some examples, and then discuss how MATLAB can be used to solve these problems.
h = 10; % convective heat transfer coefficient (W/m^2-K) A = 1; % surface area (m^2) T_s = 100; % surface temperature (°C) T_f = 50; % fluid temperature (°C)
The heat transfer rate between the two surfaces is 3151 W.