If you order 3 tomatoes, they'll deliver 4 and charge you for 5.
1 2 2 3 3 3 4 4 4 4 5 5 5 5 5 6 6 6 6 6 6As shown above, a digit is repeated to match the value of that digit.
3 4 5 6 The next number is 1 plus the previous number So the pattern rule is the next number is n + 1
i0 = 4; in = in-1 - 3
To divide fractions, multiply by the reciprocal. 3/4 divided by 2/5 = 3/4 x 5/2
The rule for this sequence appears to be adding consecutive prime numbers. The sequence starts with 3, then adds the next prime number 2 to get 4. It then adds 3 (the next prime number) to 4 to get 7, then 5 to 7 to get 12, and so on. Each number in the sequence is the sum of the previous number and the next prime number in order.
No, because the rule refers to segments as well as devices. This rule only applies to 10base networks; when higher speeds are used (100 and up) the 5-4-3 rule does not apply.
1 2 2 3 3 3 4 4 4 4 5 5 5 5 5 6 6 6 6 6 6As shown above, a digit is repeated to match the value of that digit.
3 feet 5 feet
3 4 5 6 The next number is 1 plus the previous number So the pattern rule is the next number is n + 1
i0 = 4; in = in-1 - 3
10 base-t
the rule is plus 2 1/3
To divide fractions, multiply by the reciprocal. 3/4 divided by 2/5 = 3/4 x 5/2
There are infinitely many possible answers. Rule 1: Add 9 to Input Rule 2: Add 5 to 2*Input Rule 3: Add 1 to 3*Input Rule 4: Subtract -3 from 4*Input or, moving away from whole numbers, Add 3.8 to 2.3 times Input.
12 19
This rule is a limitation of devices and connections that may be used in a network before problems occur. The rule is "5 total segments, 4 of which may be connected via repeaters or switches, 3 segments which must not be populated with clients". Note that this rule only applies to networks running at 10 mbps.
If you mean 2/1 3/2 4/3 5/4 then the next 3 terms are 6/5 7/6 8/7 and the nth term is (n+1)/n