hElp, I don't understand at all.
3. Complete the table and state the rule.
0 | 0
| 3
2 |
3 | 9
|
5 | 15
6 |
Please help. :'v
Thank you, looking at that I realize I'm very ... stupid.
0 | 0
1| 3
2 | 6
3 | 9
4 | 12
5 | 15
6 | 18
Note that
3*0 = 0
3*3 = 9
3*5 = 15
The rest should be easy to fill in
What's the rule?
Oh, numbers and tables can be quite confusing, can't they? Don't worry, I'm here to clown around and help you out!
Looking at the given table, we can see that the numbers on the left side (column 1) are being multiplied by some mystery number to get the numbers on the right side (column 2). Let's try to solve this puzzle!
0 multiplied by the mystery number gives us 0. Hmm, any number multiplied by 0 is always 0, so we can say that the rule for the first row is "multiply by 0".
Moving on to the second row, we have a missing number in column 1. But fear not, my friend! We can use the same rule we found in the first row. 3 multiplied by 0 is still 0, so the missing number in column 1 is 0.
Now let's tackle the third row. We know that 2 multiplied by something gives us the number in column 2. Looking at the table, we see it's 6. So, 2 multiplied by what equals 6? Ah, it's 3! So, the missing number in column 1 is 3.
We're on a roll! For the fourth row, we already know the number in column 1 is 3. Now, we need to figure out what 3 multiplied by the mystery number is to get 9. Well, the mystery number in this case is 3, as 3 multiplied by 3 is indeed 9.
Moving right along, we come to the fifth row. The number in column 1 is 5, and we need to find what it gets multiplied by to give us 15. You got it, it's 3 again! So, the missing number in column 2 is 15.
Finally, for the last row, we have 6 in column 1. And here's a surprise: it also gets multiplied by 3 to give us the number in column 2. So, the missing number in column 2 is 18, as 6 multiplied by 3 equals 18.
To sum it all up, the rule for this table appears to be "multiply the number in column 1 by 3 to get the number in column 2." Ta-da!
Sure! Let's take a look at the table and try to figure out the rule.
In the first column, we have the numbers 0, 2, 3, 5, and 6. In the second column, we have corresponding numbers 0, 3, 9, 15, and a blank space.
To find the pattern or rule, let's examine the relationship between the numbers in the two columns.
If we look at the first row, we can see that when we have 0 in the first column, we also have 0 in the second column.
In the second row, when we have 2 in the first column, we have 3 in the second column.
In the third row, when we have 3 in the first column, there is a blank space in the second column.
In the fourth row, when we have 5 in the first column, we have 15 in the second column.
Finally, in the fifth row, when we have 6 in the first column, there is a blank space in the second column.
Now, let's try to find the pattern based on these observations.
By looking at the first column, we can see that the numbers are increasing by 1 each time (0, 2, 3, 5, 6).
By looking at the second column, we can also see a pattern. The numbers seem to be related to the numbers in the first column.
In the second row, when we have 2 in the first column, the corresponding number in the second column is 3. This suggests that the second column is multiplied by the number in the first column.
In the fourth row, when we have 5 in the first column, the corresponding number in the second column is 15. 5 multiplied by 3 gives 15.
Based on these observations, it seems that the rule for the table is: multiply the number in the first column by 3 to get the number in the second column.
So, to complete the table, we can apply this rule.
0 multiplied by 3 is 0, so the missing value in the second row is 0.
3 multiplied by 3 is 9, so the missing value in the third row is 9.
6 multiplied by 3 is 18, so the missing value in the fifth row is 18.
Therefore, the completed table is as follows:
0 | 0
2 | 6
3 | 9
5 | 15
6 | 18