Question 2 :
If $a=107,b=13$ using Euclid's division algorithm find the values of $q$ and $r$ such that $a=bq+r$
Question 3 :
The statement dividend $=$ divisor $\times$ quotient $+$ remainder is called 
Question 4 :
Without actually dividing find which of the following are terminating decimals.
Question 5 :
We need blocks to build a building. In the same way _______ are basic blocks to form all natural numbers .
Question 7 :
Euclids division lemma, the general equation can be represented as .......
Question 8 :
The number of possible pairs of number, whose product is 5400 and the HCF is 30 is<br>
Question 9 :
State whether the given statement is True or False :<br/>$2\sqrt { 3 }-1 $ is an irrational number.
Question 10 :
Use Euclid's division algorithm to find the HCF of :$196$ and $38220$
Question 15 :
State the following statement is True or False<br>35.251252253...is an irrational number<br>
Question 16 :
If $a=\sqrt{11}+\sqrt{3}, b =\sqrt{12}+\sqrt{2}, c=\sqrt{6}+\sqrt{4}$, then which of the following holds true ?<br/>
Question 20 :
Assertion: The denominator of $34.12345$ is of the form $2^n \times 5^m$, where $m, n$ are non-negative integers.
Reason: $34.12345$ is a terminating decimal fraction.
Question 21 :
 One and only one out of  $n, n + 4, n + 8, n + 12\  and \ n + 16 $ is ......(where n is any positive integer)<br/>
Question 25 :
When a natural number x is divided by 5, the remainder is 2. When a natural number y is divided by 5, the remainder is 4. The remainder is z when x+y is divided by 5. The value of $\dfrac { 2z-5 }{ 3 } $ is