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please do not do question 1 but add "Assume...." conditions to #1, thank you, upvote for...
d1=7 d2=8 Any help would be greatly appreciated. Question 3 Left end (r-0) of a copper rod of length 100mm is kept at a constant temperature of Temp-1 0 a 2 degrees and the right end and sides are insulated, so that the temperature in the ul ul where D = 111 mm2/s for copper. rod, u(x,t), obeys the heat partial DE, Ot Ox (a) Write the boundary conditions for il(x,t) of the problem above. Note that for the left...
D1 = 7 D2 = 4 Any assistance would be greatly appreciated Question 3 Left end (x 0) of a copper rod of length 100mm is kept at a constant temperature of Temp - 10+d2 degrees and the right end and sides are insulated, so that the temperature in the rod, u(x,t). obeys the heat partial DE, CD11 mms copper. where D-1 mm's for copper (a) Write the boundary conditions for u(x, 1) of the problem above. Note that for...
d1=7 d2=8 Question 3 Left end (r-0) ofa copper rod of length 100mm is kept at a constant temperature of Temp = 10+42 degrees and the right end and sides are insulated, so that the temperature in the ou u ax2 rod, 11(X, 1) , obeys the heat partial DE, Ơ Co2 , where D-111 mm 2/s for copper. where D 111 mm*/s for copper. (a) Write the boundary conditions for u(x,t) of the problem above. Note that for the...
Question 1 [Total 20 marks] (a) [5 marks] In a steady-state two-dimensional heat flow problem, the temperature, u, at any point in the domain (t, ) satisfies the differential equation u y(2-y) u= U0F With the given temperature boundary condition as follows: u(x, 0) = 0, u(x, 2) = x(4-x), 0 < x < 4 Calculate the temperature at the interior points a, b, and c using a mesh size h-1. Question 1 [Total 20 marks] (a) [5 marks] In...
(a) Consider the one-dimensional heat equation for the temperature u(x, t), Ou,02u where c is the diffusivity (i) Show that a solution of the form u(x,t)-F )G(t) satisfies the heat equation, provided that 护F and where p is a real constant (ii) Show that u(x,t) has a solution of the form (,t)A cos(pr)+ Bsin(p)le -P2e2 where A and B are constants (b) Consider heat flow in a metal rod of length L = π. The ends of the rod, at...
Problem 1. Consider the nonhomogeneous heat equation for u(,) subject to the nonhomogeneous boundary conditions 14(0,t) 1, u(r,t)-0,t> and the initial condition the solution u(x, t) by completing each of the following steps (a) Find the equilibrium temperature distribution u ( (b) Denote v, t)t) - u(). Derive the IBVP for the function vz,t). (c) Find v(x, t) (d) Find u(x, t) Problem 1. Consider the nonhomogeneous heat equation for u(,) subject to the nonhomogeneous boundary conditions 14(0,t) 1, u(r,t)-0,t>...
please can the answer can be visible to read and explain each step Thanks Since b, a, k are fixed positive real numbers, consider the equation of heat with prewritten boundary conditions: ut(x, t) = kuzz(x, t) – a u(x,t) 0 < x <b, t> 0, u(x,0) = f(x), u(0,t) = 0 u(b, t) = 0, Assuming that u (x, t) = v(x)w(t), solve the problem of self-value for the system of ordinary differential equations obtained by means of separation...
Consider the partial differential equation together with the boundary conditions u(0, t) 0 and u(1,t)0 for t20 and the initial condition u(z,0) = z(1-2) for 0 < x < 1. (a) If n is a positive integer, show that the function , sin(x), satisfies the given partial differential equation and boundary conditions. (b) The general solution of the partial differential equation that satisfies the boundary conditions is Write down (but do not evaluate) an integral that can be used to...
Problem 1. Consider the nonhomogencous heat equation for u(a,t) subject to the nonhomogeneous boundary conditions u(0,t1, t)- 0, and the initial condition 1--+ sin(z) u(z,0) = e solution u(z, t) by completing each of the following steps Find the equilibrium temperature distribution we r) Find th (b) Denote v, t)t) - ()Derive the IBVP for the function vz,t). (c) Find v(x, t) (d) Find u(x, t) Problem 1. Consider the nonhomogencous heat equation for u(a,t) subject to the nonhomogeneous boundary...
In a steady-state two-dimensional heat flow problem, the temperature, u, at any point in the domain (x, y) satisfies the following differential equation. With the given temperature boundary condition, find the internal temperature at points a, b, and c using a numerical method. 0 4 4 In a steady-state two-dimensional heat flow problem, the temperature, u, at any point in the domain (x, y) satisfies the following differential equation. With the given temperature boundary condition, find the internal temperature at...