Cody

# Problem 44372. Polarisation

Solution 2026539

Submitted on 18 Nov 2019 at 15:29
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### Test Suite

Test Status Code Input and Output
1   Fail
x = 5; y_correct = 0.5; assert(abs(polarised(x)-y_correct) < 1e-10)

Undefined function 'isPolarizationCapable' for input arguments of type 'double'. Error in polarised (line 2) y =isPolarizationCapable(x); Error in Test1 (line 3) assert(abs(polarised(x)-y_correct) < 1e-10)

2   Fail
x = 180; y_correct = 0.5; assert(abs(polarised(x)-y_correct) < 1e-10)

Undefined function 'isPolarizationCapable' for input arguments of type 'double'. Error in polarised (line 2) y =isPolarizationCapable(x); Error in Test2 (line 3) assert(abs(polarised(x)-y_correct) < 1e-10)

3   Fail
x = 365; y_correct = 0.5; assert(abs(polarised(x)-y_correct) < 1e-10)

Undefined function 'isPolarizationCapable' for input arguments of type 'double'. Error in polarised (line 2) y =isPolarizationCapable(x); Error in Test3 (line 3) assert(abs(polarised(x)-y_correct) < 1e-10)

4   Fail
x = [91, 1]; y_correct = 0; assert(abs(polarised(x)-y_correct) < 1e-10)

Undefined function 'isPolarizationCapable' for input arguments of type 'double'. Error in polarised (line 2) y =isPolarizationCapable(x); Error in Test4 (line 3) assert(abs(polarised(x)-y_correct) < 1e-10)

5   Fail
a = randi([-360, 360]); b = 90*(1+2*randi([-3, 3])); x = [a, a+b]; y_correct = 0; assert(abs(polarised(x)-y_correct) < 1e-10)

Undefined function 'isPolarizationCapable' for input arguments of type 'double'. Error in polarised (line 2) y =isPolarizationCapable(x); Error in Test5 (line 5) assert(abs(polarised(x)-y_correct) < 1e-10)

6   Fail
a = randi([-360, 360]); b = 90*(1+2*randi([-3, 3])); x = [a, a+b]; y_correct = 0; assert(abs(polarised(x)-y_correct) < 1e-10)

Undefined function 'isPolarizationCapable' for input arguments of type 'double'. Error in polarised (line 2) y =isPolarizationCapable(x); Error in Test6 (line 5) assert(abs(polarised(x)-y_correct) < 1e-10)

7   Fail
x = [0, 22.5]; y_correct = 0.85355339059/2; assert(abs(polarised(x)-y_correct) < 1e-10)

Undefined function 'isPolarizationCapable' for input arguments of type 'double'. Error in polarised (line 2) y =isPolarizationCapable(x); Error in Test7 (line 3) assert(abs(polarised(x)-y_correct) < 1e-10)

8   Fail
x = [0, -45]; y_correct = 0.25; assert(abs(polarised(x)-y_correct) < 1e-10)

Undefined function 'isPolarizationCapable' for input arguments of type 'double'. Error in polarised (line 2) y =isPolarizationCapable(x); Error in Test8 (line 3) assert(abs(polarised(x)-y_correct) < 1e-10)

9   Fail
x = [5, 140]; y_correct = 0.25; assert(abs(polarised(x)-y_correct) < 1e-10)

Undefined function 'isPolarizationCapable' for input arguments of type 'double'. Error in polarised (line 2) y =isPolarizationCapable(x); Error in Test9 (line 3) assert(abs(polarised(x)-y_correct) < 1e-10)

10   Fail
x = 5 + (1:5)*22.5; y_correct = 0.53079004294/2; assert(abs(polarised(x)-y_correct) < 1e-10)

Undefined function 'isPolarizationCapable' for input arguments of type 'double'. Error in polarised (line 2) y =isPolarizationCapable(x); Error in Test10 (line 3) assert(abs(polarised(x)-y_correct) < 1e-10)