13. The reciprocal Fibonacci constant y is defined by the infinite sum: ν- ΣΕ where F, are the Fibonacci numbers 1, 1, 2, 3, 5, 8, 13, ... . Each element in this sequence of numbers is the sum of the...


13. The reciprocal Fibonacci constant y is defined by the infinite sum:<br>ν- ΣΕ<br>where F, are the Fibonacci numbers 1, 1, 2, 3, 5, 8, 13, ... . Each element in<br>this sequence of numbers is the sum of the previous two. Start by setting the<br>first two elements equal to 1, then F, = F,„-1 +Fn-2- Write a MATLAB pro-<br>gram in a script file that calculates y for a given n. Execute the program for<br>n = 10, 50, and 100.<br>

Extracted text: 13. The reciprocal Fibonacci constant y is defined by the infinite sum: ν- ΣΕ where F, are the Fibonacci numbers 1, 1, 2, 3, 5, 8, 13, ... . Each element in this sequence of numbers is the sum of the previous two. Start by setting the first two elements equal to 1, then F, = F,„-1 +Fn-2- Write a MATLAB pro- gram in a script file that calculates y for a given n. Execute the program for n = 10, 50, and 100.

Jun 05, 2022
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