0
Any number to the power 0 is 1 - except 00, which is undefined.
This can't really be "proven", but the definition makes sense: you may already know that, for example, 102 x 103 = 105, in other words, you can add the exponents. So, you would also have 105 x 100 = 105; the number in the middle must obviously be equal to 1.
Another way to look at it is looking at this sequence:
103 = 1000
102 = 100
101 = 10
100 = 1
The exponent in the left part is reduced by 1 each time, the number at the right, decreased by a factor of 10 each time. Thus, it makes sense to define 100 (or any other number to the power zero) as 1.
Note that this is no proof; the powers are defined so that x0 = 1 (for x not equal to zero). The above only shows that definition is reasonable.
Any number to the power 0 is 1 - except 00, which is undefined.
This can't really be "proven", but the definition makes sense: you may already know that, for example, 102 x 103 = 105, in other words, you can add the exponents. So, you would also have 105 x 100 = 105; the number in the middle must obviously be equal to 1.
Another way to look at it is looking at this sequence:
103 = 1000
102 = 100
101 = 10
100 = 1
The exponent in the left part is reduced by 1 each time, the number at the right, decreased by a factor of 10 each time. Thus, it makes sense to define 100 (or any other number to the power zero) as 1.
Note that this is no proof; the powers are defined so that x0 = 1 (for x not equal to zero). The above only shows that definition is reasonable.
Any number to the power 0 is 1 - except 00, which is undefined.
This can't really be "proven", but the definition makes sense: you may already know that, for example, 102 x 103 = 105, in other words, you can add the exponents. So, you would also have 105 x 100 = 105; the number in the middle must obviously be equal to 1.
Another way to look at it is looking at this sequence:
103 = 1000
102 = 100
101 = 10
100 = 1
The exponent in the left part is reduced by 1 each time, the number at the right, decreased by a factor of 10 each time. Thus, it makes sense to define 100 (or any other number to the power zero) as 1.
Note that this is no proof; the powers are defined so that x0 = 1 (for x not equal to zero). The above only shows that definition is reasonable.
Any number to the power 0 is 1 - except 00, which is undefined.
This can't really be "proven", but the definition makes sense: you may already know that, for example, 102 x 103 = 105, in other words, you can add the exponents. So, you would also have 105 x 100 = 105; the number in the middle must obviously be equal to 1.
Another way to look at it is looking at this sequence:
103 = 1000
102 = 100
101 = 10
100 = 1
The exponent in the left part is reduced by 1 each time, the number at the right, decreased by a factor of 10 each time. Thus, it makes sense to define 100 (or any other number to the power zero) as 1.
Note that this is no proof; the powers are defined so that x0 = 1 (for x not equal to zero). The above only shows that definition is reasonable.
It comes from the law of indices. One of the laws states that
xa * xb = x(a+b)
Now, if you put b = 0 in that, you get
xa * x0 = x(a+0)
but a+0 = a so the right hand side is xa
That is, xa * x0 = xa
For this to be true, x0 must be 1.
In your particular example, put x = 10.
Any number to the power 0 is 1 - except 00, which is undefined.
This can't really be "proven", but the definition makes sense: you may already know that, for example, 102 x 103 = 105, in other words, you can add the exponents. So, you would also have 105 x 100 = 105; the number in the middle must obviously be equal to 1.
Another way to look at it is looking at this sequence:
103 = 1000
102 = 100
101 = 10
100 = 1
The exponent in the left part is reduced by 1 each time, the number at the right, decreased by a factor of 10 each time. Thus, it makes sense to define 100 (or any other number to the power zero) as 1.
Note that this is no proof; the powers are defined so that x0 = 1 (for x not equal to zero). The above only shows that definition is reasonable.
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10 to the power of 0?
1 anything to the power of 0 equals 1 100=1 x0=1
Is 10 to the 0 power equal to 2 to the 0 power?
Yes, everything to the power of 0 equals 1.
10 to the ninth power equals?
The same as a "1", followed by 9 "0"s.
Why does 10 and the power of 0 equals 1?
It is an empty product: http://en.wikipedia.org/wiki/Empty_product
What does 0 to the power of 0 equal?
0 to the power 0 is 1 because any number power zero is always equal to 1.Anything to the power of 0 equals 1.
What does 10 to 0 power equals?
1
10 to the power of 0?
1 anything to the power of 0 equals 1 100=1 x0=1
What is 10 raised to the power of 0?
100 = 1.Any number to the power of 0 equals 1.
Is 10 to the 0 power equal to 2 to the 0 power?
Yes, everything to the power of 0 equals 1.
10 to the 0 power multiplied by 5 to the 0 power?
10 to the 0 power is 10 and 5 to the 0 power is 5 so 10 multiplied by 5 equals 50.
Is anything to the power of 0 equals 1?
Everything to the power of 0 equals 1.
10 to the ninth power equals?
The same as a "1", followed by 9 "0"s.
Why does 10 and the power of 0 equals 1?
It is an empty product: http://en.wikipedia.org/wiki/Empty_product
Why does 1 to the power of 0 still equal 1?
Everything to the power of 0 equals 1
What power of 2 equals 1?
0 since anything to the power of 0 = 1
What is 10 to the power of 0?
10 to the power 0 is 1
What does 0 to the power of 0 equal?
0 to the power 0 is 1 because any number power zero is always equal to 1.Anything to the power of 0 equals 1.
