Without actually performing the long division, write the decimal expansion of the following rational numbers
`(1) 113/200 (2) 613/2500 (3) 4213/3125 (4) 63/32`

Write down the decimal expansions of the following rational numbers without performing the long division : (1) 7/16 (2) 133/250 (3) 517/625 (4) 891/1250

Write the decimal form of the following rational numbers without actual division. (i) 35/50 (ii) 21/25 (iii) 7/8

Without actually performing the long division, state whether the following rational numbers will have a terminating decimal expansion or a non-terminating repeating decimal al expansion : (1)13/3125 (2)17/8 (3) 64/455 (4)15/1600 (5) 29/343 (6) (23)/(2^(3)5^(2)) (7) (129)/(2^(2)5^(7)7^(5)) (8) 6/15 (9) 35/50 (10) 77/210

Without actually performing the long division, , state whether the following rational numbers will have a terminating decimal expansion or a non-terminating repeating decimal expansion (1)317/500 (2) 19/24 (3) 513/160 (4) 62/375 (5) 894/2000 (6) 348/700 (7) 1537/4000 (8) 106/42

Using the above theorems, without actual division, state whether decimal form of the following rational numbers are terminating or non-terminating, repeating decimals. (i) 6/125 (ii) 25/32 (iii) 100/81 (iv) 41/75

Without performing the long division, show that 3x^(4) + 4x^(3) - 12 x^(2) - x - 30 is a multiple of x^(2) + x - 6 .

Write the following rational numbers in the decimal form and find out the block of repeating digits in the quotient. 1/3

Taking the set of natural numbers as the universal set, write down the complement of the following sets. {x : x is a natural number divisible by 2 and 3}