The square root of 29 is an irrational number, close to (but not equal to) 5.385; on a number line, this is a point between 5 and 6 closer to 5 than 6.
The number can also be represented as a continued fraction. You can find a link to an image of this representation below.
First, you calculate it to the desired number of decimals. Then you place it on the number line in the usual manner.
12 and 13
Sometimes the square root of a positive number can be irrational, as in the square root of 2 (which is a non-perfect square number), but sometimes it is a rational number, as in the square root of 25 (which is a perfect square number).
The number 3 is the square root of the number 9 !
The square root of 16 is 4 which is a whole number.
First, you calculate it to the desired number of decimals. Then you place it on the number line in the usual manner.
By root, I think you mean square root. The square root of 2 is approx. 1.414. The square root of 9 = 3, so this goes exactly at 3 on the number line. Square root 2 will be less than 1/2 way between 1 and 2 on the number line.
Eight to the square root of two is 18.930500992570284227768534002147.
friends,root 10 is according to our pythagores thoream.root 10=square of 3 and square of 1 can be represented on a number line.
I assume you mean the square Root of 3. You can't show it exactly as root 3 is an irrational number. BUT, you can show it approximately. Root 3 = 1.732... So put a mark between 1 and 2 on the number line at about 1.7.
I would show it at location 1.732 , even if I was allowed to use Pythagoras.
This can not be done. Every non-negative number on the number line is the square root of its square. You would have to mark every number from zero on.
You don't
The square root of 66 is a little bit greater than 8. So, plotted on a number line, it would be just to the right of the number 8.
12 and 13
√16=4
The square root is the number which is times by itself, to get the square number.