Thank you all for your answers. Although almost all of you helped me look in the right direction I could not understand the exact reason for this behavior. So I did a bit of research in addition to reading the pages you guys pointed me to. Here is my understanding for this behavior:

Single Precision Floating Point numbers typically use 4 bytes for storage on x86/x86-64 architectures. However not all 32 bits (4 bytes = 32 bits) are used to store the magnitude of the number.

For storing as a single precision floating type, the input stream is formatted in the following notation (somewhat similar to scientific notation):

```
(-1)^s x 1.m x 2^(e-127), where
s = sign of the number, range:{0,1} - takes up 1 bit
m = mantissa (fractional portion) of the number - takes up 23 bits
e = exponent of the number offset by 127, range:{0,..,255} - takes up 8 bits
```

and then stored in memory as

```
0th byte 1st byte 2nd byte 3rd byte
mmmmmmmm mmmmmmmm emmmmmmm seeeeeee
```

Therefore the decimal number 125.1 is first converted to binary form but limited to 24 bits so that the mantissa is represented by no more than 23 bits. After conversion to binary form:

```
125.1 = 1111101.00011001100110011
```

**NOTE:** *0.1 in decimal can be represented up to infinite bits in binary but the computer limits the representation to 17 bits so the complete representation does not exceed 24 bits.*

Now converting it into the specified notation we get:

```
125.1 = 1.111101 00011001100110011 x 2^6
= (-1)^0 + 1.111101 00011001100110011 x 2^(133-127)
```

which implies

```
s = 0
m = 11110100011001100110011
e = 133 = 10000101
```

Therefore, 125.1 will be stored in memory as:

```
0th byte 1st byte 2nd byte 3rd byte
mmmmmmmm mmmmmmmm emmmmmmm seeeeeee
00110011 00110011 11111010 01000010
```

On being passed to the printf() function the output stream is generated by converting the binary form to the decimal form. The bytes are actually stored in reverse order (from the input stream) and hence read in this order:

```
3rd byte 2nd byte 1st byte 0th byte
seeeeeee emmmmmmm mmmmmmmm mmmmmmmm
01000010 11111010 00110011 00110011
```

Next, it is converted into the specific notation for conversion

```
(-1)^0 + 1.111101 00011001100110011 x 2^(133-127)
```

On simplifying the above representation further:

```
= 1.111101 00011001100110011 x 2^6
= 1111101.00011001100110011
```

And finally converting it to decimal:

```
= 125.0999984741210938
```

~~but single precision floating point can represent only up to 6 decimal places, therefore~~ the answer is rounded off to **125.099998**.