0
Which numbers under 30 can be made by subtracting two square numbers from each other?
29 = 225 - 196
28 = 64 - 36
27 = 36 - 9
25 = 169 - 144
24 = 25 - 1
23 = 144 - 121
21 = 25 - 4
20 = 36 - 16
19 = 100 - 81
17 = 81 - 64
16 = 25 - 9
15 = 16 - 1
13 = 49 - 36
12 = 16 - 4
11 = 36 - 25
9 = 25 - 16
8 = 9 - 1
7 = 16 - 9
5 = 9 - 4
3 = 4 - 1
1 = 1 - 0 (if you include zero as a square number)
0 = any square number subtracted from itself
What else can I help you with?
What is a set of rational numbers not closed under?
It is not closed under taking square (or other even) roots.
How many square numbers are under 30?
There are 5 square numbers under 30: 1, 4, 9, 16, and 25.
What are the square numbers under 30?
1, 4, 9, 16, 25
When adding or subtracting decimals always do what?
First you write the decimals one under the other, in such as way that the decimal points are aligned.
All the square numbers under 42 and obove 29?
The only whole number square between 29 and 42 is 36 .
What is a set of rational numbers not closed under?
It is not closed under taking square (or other even) roots.
How many square numbers are under 30?
There are 5 square numbers under 30: 1, 4, 9, 16, and 25.
Are real numbers closed under the square root operation?
No. Negative numbers are real but their square roots are not.
What are the square numbers under 30?
1, 4, 9, 16, 25
When adding or subtracting decimals always do what?
First you write the decimals one under the other, in such as way that the decimal points are aligned.
What are the numbers with square root?
The answer depends on the numbers under the radical signs. Dpending on their value, the answer will be rational, irrational (real) or complex.
All the square numbers under 42 and obove 29?
The only whole number square between 29 and 42 is 36 .
Are real numbers closed under addition and subtraction?
Real numbers are closed under addition and subtraction. To get a number outside the real number system you would have to use square root.
What do 1 4 and 9 have in common?
They all have square roots. Square root of 1 is 1 Square root of 4 is 2 Square root of 9 is 3
Under what circumstances would the domain be something other than all real numbers?
It would be an imaginary number (one that cannot exist). For example the square root of a negative number.
Which integers have a square root that is greater than 7 and less than 8?
Since 7^2 is 49 and 8^2 is 64, And the numbers must have a square root between 7 and 8, The numbers have to be in between 49 and 64. This is because if the numbers are under 49, Its square root will be below 7. And if the numbers are above 64, Its square root will be above 8.
How does the numbers of zero relate to the number under the square root?
With great difficulty. What exactly are you trying to ask?
