Question 1 (1 mark) Attempt 1 Consider the boundary value problem1, 2<8 with uç2)-3 and uB)-s...
Question 1 (1 mark) Attempt 1 Consider the boundary value problem Q Find the functions g, Φ 1 and Φ 2 so that u-3-al Φ1-a2Φ2 is the approximate quadratic solution that satisfies the essential boundary condition Your answer should consist of three expressions, the first representing the term g, the second representing the term Ф1 and the third representing the term Ф2 All three expressions should be expressed in terms of the independent variable x. Your answers should be expressed...
Question Question 1 (1 mark) Attempt 1 Consider the boundary value problem: du+ U=1, 2<c<13 with u(2) = 4 and u(13) = 5 Find functions g and , such that u=gta, is a quadratic approximation that satisfies the boundary conditions. Your answer should consist of two expressions, the first representing the term g and the second representing the term ,. Both should be expressed in terms of the independent variable x. Your answers should be expressed as a function of...
Consider the boundary value problem (12")=-45+4 with (2)=5 and u(6)=-1 Find the functions g., and , so that y = 9+Q81+ay, is the approximate quadratic solution that satisfies the essential boundary condition. Your answer should consist of three expressions, the first representing the term g, the second representing the term , and the third representing the term og. All three expressions should be expressed in terms of the independent variable x. Your answers should be expressed as a function of...
Question 3 (1 mark) Special Attempt 1 When solving a particular boundary value problem using the approximate solution u(x)=C–1+Q1 (32-40) the residual is R(*)= 3+20–42+Q7 (22+50+1). Use the collocation method with the collocation point x = 2 to find the value of a Your answer should consist of the single (exact) value of Qy. For example -911/203 Qq = Skipped
Value for transmissivity is 185,location is B,flow rate is
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Question 1: No-flow boundary conditions are implemented by: Question 2: Flow Calculation with no abstraction or recharge m2/day m/day Condition 1 flow is Condition 2 flow is Question 3: Recharge or abstraction at a node is calculated by: Question 4: Water Level and Flows for Condition 1 are: Water level at pumping/recharge node Flow accross boundary AB Flow accross boundary CD ..,..) is m3/dayFlow accross boundary BC m/dayFlow accross boundary...