The rule appears to be a linear relationship between the input and output values. When the input increases by 4 (from 1 to 5), the output decreases by 4 (from 5 to 1). Similarly, when the input increases by another 4 (from 5 to 9), the output decreases by 4 again (from 1 to -3). Therefore, the rule seems to be that for every increase of 4 in the input, the output decreases by 4.
Input: "3+2" --- Output: "5" Input: "song.mp3" ---- Output: the music you listen to
Just divide the output force by the input force.Just divide the output force by the input force.Just divide the output force by the input force.Just divide the output force by the input force.
Multiply by 5 and add 20 (or equivalently, add 4 and then multiply by 5)
42
17
The operation appears to involve subtracting 1 from the quotient of each input number divided by 5. Specifically, for each input number ( x ), the output can be calculated as ( \text{output} = \frac{x}{5} + 3 ). For example, for the input 5, the output is ( \frac{5}{5} + 3 = 4 ). This pattern holds for all given input numbers.
The output can be expressed mathematically as ( \text{Output} = 2 \times (\text{Input} + 3) ). This means you first add 3 to the input value and then multiply the result by 2. For example, if the input is 5, the output would be ( 2 \times (5 + 3) = 2 \times 8 = 16 ).
The output is multiplied by 5.
The output is multiplied by 5.
is an omr and input or output device?
5 data input lines and 5 data output lines