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Solution 219019

Submitted on 19 Mar 2013 by Tim

Correct

108Size
Leading solution size is 104.
This solution is locked. To view this solution, you need to provide a solution of the same size or smaller.

Test Suite

Test
Code Input and Output
1
Pass
 
%% Check linear interpolation
X = [4800; 5100];
Y = [7.5247; 7.2851]*1e-1;
x = 5000;
y = Newton_Interp(X,Y,x)
y_correct = 0.73650;
assert(abs(y-y_correct)<1e-4)
y =
    0.7365
2
Pass
 
%% Check Newton polynomial coefficients
X = [4800; 5100];
Y = [7.5247; 7.2851];
x = 5000;
y_correct = 7.3650;
b_correct = [7.5247, -0.00079867];
[y,b] = Newton_Interp(X,Y,x)
assert(abs(y-y_correct)<1e-4)
assert(norm(b-b_correct)<1e-3)
y =
    7.3650
b =
    7.5247   -0.0008
3
Pass
 
%% Check quadratic interpolation
X = [300, 400, 500];
Y = [0.616, 0.525, 0.457];
x = 350;
[y,b] = Newton_Interp(X,Y,x)
y_correct = 0.567625;
b_correct = [0.616, -0.00091, 0.00000115];
assert(abs(y-y_correct)<1e-4)
assert(norm(b-b_correct)<1e-3)
y =
    0.5676
b =
    0.6160   -0.0009    0.0000
4
Pass
 
%% Check quadratic interpolation for log
X = [1, 4 6];
Y = log(X);
x = 2;
[y,b] = Newton_Interp(X,Y,x)
y_correct = 0.5658;
b_correct = [0, 0.4620981, -0.0518731];
assert(abs(y-y_correct)<1e-4)
assert(norm(b-b_correct)<1e-3)
y =
    0.5658
b =
         0    0.4621   -0.0519