Consider the sequence:

5, 7, 11, 19, 35,....

Write an explicit definition that defines the sequence:

a_n = 2n + 3

a_n = 3n + 2

a_n = 3n^2

a_n = 2^n + 3

The first differences have a geometric progression, so the explicit definition will be an exponential function. (It cannot be modeled by a linear or quadratic function.) The above answer is the only choice that is an exponential function.

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First differences are ...

(7-5=)2, 4, 8, 16

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JeanaShupp JeanaShupp · Answer 2 · 2020-03-18T04:01:53+01:00

Answer: [tex]a_n = 2^n + 3\ \ \ \, n=1,2,3,4,5...[/tex]

Step-by-step explanation:

The given sequence = 5, 7, 11, 19, 35,....

[tex]7-5=2\\11-7=4=2^2\\19-11=8=2^3\\35-19=16=2^4[/tex]

Here , it cam be observe that the difference between the terms is not common but can be expressed as power of 2.

We can write the terms of the sequence as

[tex]2^1+3=5\\2^2+3=4+3=7\\2^3+3=8+3=11\\2^4+3=16+3=19\\2^5+3=32+3=35[/tex]

Then , the required explicit definition that defines the sequence will be

[tex]a_n = 2^n + 3\ \ \ \, n=1,2,3,4,5...[/tex]

Consider the sequence: 5, 7, 11, 19, 35,.... Write an explicit definition that defines the sequence: a_n = 2n + 3 a_n = 3n + 2 a_n = 3n^2 a_n = 2^n + 3

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Consider the sequence:

5, 7, 11, 19, 35,....

Write an explicit definition that defines the sequence:

a_n = 2n + 3

a_n = 3n + 2

a_n = 3n^2

a_n = 2^n + 3