A thin bar of length L = 3 meters is situated along the x axis so that one end is at x = 0 and the other end is at x = 3. The thermal diffusivity of the bar is k = 0.4. The bar's initial temperature f(x) = 50 degrees Celsius. The ends of the bar (x = 0 and x = 3) are then put in an icy bath and kept at a constant O degrees C. Let u(x, t) be the temperature in the bar at x at time t, with t measured in seconds. Find u(x, t) and then u7 (2, 0.1). Put uz(2, 0.1) calculated accurately to the nearest thousandth (3 decimal places) in the answer box

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21) [ordinary differential equations; topic] Please solve the following problem Provide a well explained and understandable(readable) Step by step solution solution
A thin bar of length L = 3 meters is situated along the x axis so that one end is at x = 0 and the other
end is at x = 3. The thermal diffusivity of the bar is k = 0.4. The bar's initial temperature f(x) = 50
degrees Celsius. The ends of the bar (x = 0 and x = 3) are then put in an icy bath and kept at a constant
O degrees C. Let ulx, t) be the temperature in the bar at x at time t, with t measured in seconds. Find
u(x, t) and then w- (2, 0.1).
Put uz(2, 0.1) calculated accurately to the nearest thousandth (3 decimal places) in the answer box.
Transcribed Image Text:A thin bar of length L = 3 meters is situated along the x axis so that one end is at x = 0 and the other end is at x = 3. The thermal diffusivity of the bar is k = 0.4. The bar's initial temperature f(x) = 50 degrees Celsius. The ends of the bar (x = 0 and x = 3) are then put in an icy bath and kept at a constant O degrees C. Let ulx, t) be the temperature in the bar at x at time t, with t measured in seconds. Find u(x, t) and then w- (2, 0.1). Put uz(2, 0.1) calculated accurately to the nearest thousandth (3 decimal places) in the answer box.
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