Statement I: The conversion of binary fraction 0.101 to decimal fraction can be written as `2^(-1) + 0 + 2^(-3) = 0.625.`
Statement II: In binary system, base is 2 and the digits used are 0 and 1.

Statement I: The conversion of binary number 1101 to decimal number can be written as 2^(4) + 2^(3) + 0 + 2^(1) = 26 . Statement II : In binary system, base is 2 and the digits used are 0 and 1.

Let's convert the following decimal fraction into percentage. (ii) 0.02

Let's convert the following decimal fraction into percentage. (i) 0.6

Give an example of conversion of fraction (i) from decimal to binary and (ii) from binary to decimal.

the coloured portion interms of decimal fraction. (20)/(100)part =0*2 part

the coloured portion interms of decimal fraction. (3)/(10) part =0*3 part

convert the following decimal numbers to fractions : 0*3

In this question has statement I and statement II of the four choice given after the statement choose the one that best describes the two statements Statement-Number of waves in an orbit of atom is equal to number of that orbit. Statement-Iforn=3 l may be 0,1 and 2 and m may be 0, +-1,+-2 Statement-II For each value of n there are 0 to (n-1) possible values of l and for each value of l there are 0 to +-l values of m.

Stetement I: Decimal value of the binary number 111 is 7. Therefore, (0.111)_(2) = (7/(2^(3)))_(10) . Statement II: Decimal fraction 0.111 can be written as (111)/(10^(3)) .

Consider the system of equations ax+by=0 and cx+dy=0" where "a, b, c, d in {0,1} Statement-I: The probability that the system of equations has a unique solution is (3)/(8) . Statement-II: The probability that the system has solution is 1.