If I understand the question correctly, you simply have to calculate: 15 x 0, 15 x 1, 15 x 2, etc.
1 x 75, 3 x 25, 5 x 15.
1 x 165, 3 x 55, 5 x 33, 11 x 15.
Three examples are 15, 30, 45, and so on! Part of the 15 times table is: 1 x 15 = 15 2 x 15 = 30 3 x 15 = 45
find x+x+x when x=15 15+15+15=45
If I understand the question correctly, you simply have to calculate: 15 x 0, 15 x 1, 15 x 2, etc.
1 x 75, 3 x 25, 5 x 15.
No, forty is not in the three times table
1 x 165, 3 x 55, 5 x 33, 11 x 15.
I assume we are talking single-valued functions. If this is the case, any table with values for the function, you just have to look at the inputs to make sure two of them are not the same (in elementary algebra classes this is referred to as the "Vertical Line Test"). For example, say we have a table of numbers x and y: x | y ------ 10|15 12|15 This is a function because all the x values are different. Likewise we can say that were the table: x | y ------ 15|10 15|12 it would not be a function because we have multiple outputs originating from a single input.
Three examples are 15, 30, 45, and so on! Part of the 15 times table is: 1 x 15 = 15 2 x 15 = 30 3 x 15 = 45
There are three ways to get to 75. There is 75 x 1 3 x 25 and 5 x 15
In the 3x table 5 is prime (3 x 5 = 15), 7 is prime (3 x 7 = 21), and 11 is prime (3 x 11 = 33).
Yes, I can.
There are many possibilities, but the simplest answer is y = 10 - x
The times table that equals 630 is the 10 times table. This is because 10 multiplied by 63 equals 630. In other words, 10 x 63 = 630.
(15/100)x = 15 x = 15/(15/100) x = 15(100/15) x = 1500/15 x = 100