float s variable is 4 bytes long and its value (89) is represented in IEEE 754 format. For simplicity, let's assume this.
The first printf (char) will use the first byte of the original float variable
s (because one C char = 1 byte). Here the first byte means the byte located in the lowest memory position of the 4 bytes of
float s. Yes, this is dependent on the machine's byte alignment. The output is blank most likely because the first byte corresponds to an ascii control charater (for example 0).
The second printf, assuming that an int is 4-bytes long in your machine/compiler, will take the same 4 bytes as the third printf but will print them as an integer (note the difference between integers and IEEE 754 floating point numbers). It turns out that the IEEE 754 representation of 89 corresponds to a "1118961664" integer. This will also be dependent on byte alignment.
The third printf is doing the right thing, it will use the bytes where s's value (89) is stored, and interpret them as a floating point number. It should print 89.0. This does not depend on byte alignment.
If the size or representation of floats were different the details would change (how many bytes come from where, and what number is printed by the second printf) but the behavior would be similar. Note also that in principle the first two printf calls have undefined behavior.