Step-by-step explanation:
always start with n = 1
1.) n = 1
n + 10 = 11
n = 2
n + 10 = 12
n = 3
n + 10 = 13
therefore n + 10 is the sequence for number 3.
2.) n = 1 and using PMDAS
n x 5 - 4 = 1
n x 5 - 4 = 6
n x 5 - 4 = 11
therefore n x 5 - 4 is the sequence for number 5.
3.) n = 1
n^2 x 2 = 2. (1^2) = 1
n^2 x 2 = 8. (2^2) = 4
n^2 x 2 = 18. (3^2) = 9
therefore n^2 x 2 is the sequence for number 4.
4.) n =1
n x 6 - 1 = 5
n x 6 - 1 = 11
n x 6 - 1 = 17
therefore n x 6 - 1 is the sequence for number 2.
5.) n = 1
55 - 5n = 50
55 - 5n = 45
55 - 5n = 40
therefore 55 - 5n is the sequence for number 6.
Copyright © 2024 EHUB.TIPS team's - All rights reserved.
Answers & Comments
Step-by-step explanation:
always start with n = 1
1.) n = 1
n + 10 = 11
n = 2
n + 10 = 12
n = 3
n + 10 = 13
therefore n + 10 is the sequence for number 3.
2.) n = 1 and using PMDAS
n x 5 - 4 = 1
n = 2
n x 5 - 4 = 6
n = 3
n x 5 - 4 = 11
therefore n x 5 - 4 is the sequence for number 5.
3.) n = 1
n^2 x 2 = 2. (1^2) = 1
n = 2
n^2 x 2 = 8. (2^2) = 4
n = 3
n^2 x 2 = 18. (3^2) = 9
therefore n^2 x 2 is the sequence for number 4.
4.) n =1
n x 6 - 1 = 5
n = 2
n x 6 - 1 = 11
n = 3
n x 6 - 1 = 17
therefore n x 6 - 1 is the sequence for number 2.
5.) n = 1
55 - 5n = 50
n = 2
55 - 5n = 45
n = 3
55 - 5n = 40
therefore 55 - 5n is the sequence for number 6.