MATLAB and Simulink resources for Arduino, LEGO, and Raspberry Pi

Learn moreOpportunities for recent engineering grads.

Apply TodayCorrect

19Size

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

Test

Code Input and Output

1

Pass

%% x = [1:10]; y_correct = 6.2048; assert(isequal(rms_value(x),y_correct))

[Warning: Function /users/msssystem10/assert.m has the same name as a MATLAB builtin. We suggest you rename the function to avoid a potential name conflict.] [> In rms_value at 2 In verifyCode>evaluateCode at 227 In verifyCode at 40 In fevalJSON at 14]

2

Pass

%% x = [-5:5]; y_correct = 3.1623; assert(isequal(rms_value(x),y_correct))

[Warning: Function /users/msssystem10/assert.m has the same name as a MATLAB builtin. We suggest you rename the function to avoid a potential name conflict.] [> In rms_value at 2 In verifyCode>evaluateCode at 227 In verifyCode at 40 In fevalJSON at 14]

3

Pass

%% x = [0 0.5 1/sqrt(2) 1 sqrt(2)]; y_correct = sqrt(3)/2; assert(isequal(rms_value(x),y_correct))

[Warning: Function /users/msssystem10/assert.m has the same name as a MATLAB builtin. We suggest you rename the function to avoid a potential name conflict.] [> In rms_value at 2 In verifyCode>evaluateCode at 227 In verifyCode at 40 In fevalJSON at 14]

4

Pass

%% x = [2i i 0 1 2]; y_correct = 0; assert(isequal(rms_value(x),y_correct))

5

Pass

%% x = [2i i 0 1 2]'; y_correct = 0; assert(isequal(rms_value(x),y_correct))