1,000,000 = 1003
ten to the sixth power
1000000 = 100*100*100 = 1003
10x 10 is Base & x is exponent
If you have ab then a is the base and b the exponent
For 104 the base is 10 and the exponent is 4.
ten to the sixth power
The two are related. The answer could be base 2, exponent 18 or base 8, exponent 6 or base 10, exponent 5.4185 or base 262144, exponent 1 or base 68,719,476,736 and exponent 0.5
1000000 dived by 100 is 10000 100 dived by 1000000 is 0.0001 In other words : 100/1000000 = 0.0001 1000000/100 = 10000
The base of an exponent is the main number. For example in 56 the number 5 is the base and 6 is the exponent.
1000000 = 100*100*100 = 1003
10x 10 is Base & x is exponent
If you have ab then a is the base and b the exponent
4 is the base, 2 is the exponent.
The base could be 11 and the exponent 2, giving 112 But, it could equally be base = 14641, and exponent = 0.5, or base = 10, and exponent = 2.082785 (approx)
For 104 the base is 10 and the exponent is 4.
1,000,000 = 1 x 106or 1,0002
You can define any base you like and calculate an appropriate exponent or, you can pick an exponent and calculate the base. So you can have base 25, with exponent 2 or base 5 and exonent 4 or base e (the base for natural logarithms) and exponent 6.437752 (to 6 dp) or base 10 and exponent 2.795880 (to 6 dp) or base 2 and exponent 9.287712 etc or base 8.54988 (to 3 dp) and exponent 3 or base 3.623898 (to 3 dp) and exponent 5 etc There is no need for the base to be an integer or even rational. Probably the most important bases in advanced mathematics is e, which is a transcendental number. Similarly, there is no need for the exponent to be an integer.