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125+625 = 78,1250... 5 to the power of 7 = 78125.

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Since the base is the same in this case, just add the exponents.

Q: What is 5 to the 3rd power times five to the 4th power with only 1 exponent?

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Power

The index or the exponent - but only if it is a non-negative integer.

Any number, not only ten, to the zero power is one. In my opinion it's because it has to be this way for exponent math to work. You can read other explainations by going to the related link below. But, to me these illustrations just explain that it has to be this way for exponent math to work.

A hypothesis could be that your power is the same. Or it could be that your power is a million times greater or only one millionth. You decide!A hypothesis could be that your power is the same. Or it could be that your power is a million times greater or only one millionth. You decide!A hypothesis could be that your power is the same. Or it could be that your power is a million times greater or only one millionth. You decide!A hypothesis could be that your power is the same. Or it could be that your power is a million times greater or only one millionth. You decide!

The exponent can only be found in the context of a base. But there is no base specified and so there can be no clear answer.On possible answer is that 262144 = 512^2 so, with the base 512, the exponent is 2.

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Power

The index or the exponent - but only if it is a non-negative integer.

The answer is ln(2)2x where ln(2) is the natural log of 2. The answer is NOT f(x) = x times 2 to the power(x-1). That rule applies only when the exponent is a constant.

The exponent tells us how many times we can divide the factor.For example: 192 = 26*3 tells us we can divide 192 by 2 six times, but by 3 only once.

Yes. If we don't see an exponent, the exponent is understood to be one. Just like if we don't see a sign, the sign is assumed to be positive. This in no way constricts or limits the variable. The variable can still be anything at all. But assumptions like this are part of mathematics. How tedious would it be to have to write "x1" for each x? In any case, x1 = x so it is almost pointless.Yes, because if the variable (hypothetically speaking) is 1 (and it can be any number in the world, but 1 is an example), and the exponent (power) is 1, there is only one number to multiply, therefore, the number can only be by itself. If it is squared (to the second power) then you multiply the variable against itself (in this case, 1 X 1), but if the variable doesn't have an exponent, it is assumed to be to the power of one. Take the number 2, for example. If 2 is the variable, x, and x is alone, and you multiply how big the number is of the exponent, and because there is none, it is to the first power.X squared looks like this: x X xX (a.k.a. x to the first power) looks like this: xIf there is no exponent, you only multiply what is there, which there is only one variable, so it is assumed to be to the first power. If it were squared, or to the second power as demonstrated above, you would multiply x by itself. If you count the variables in the equation, x squared has two x's, while x alone has only one x in the equation. Because there is only one x, and the exponent represents how many of that number (in this case, x) you multiply by itself, x is assumed to be to the first power, or to the power of one.

Any number, not only ten, to the zero power is one. In my opinion it's because it has to be this way for exponent math to work. You can read other explainations by going to the related link below. But, to me these illustrations just explain that it has to be this way for exponent math to work.

five power

There is a good answer. You will need: - a square root - a decimal point - a negative sign - an exponent (x to the power of y)

Assuming that you can use each number multiple times, 3125, because there are five options for the first number, five for the second, and so on to reach five. Then, five times five times five times five times five, or five to the fifth power, equals 3125. Were you only able to use each number once, the answer would be 120 based on the same principle. There would be five options for the first number, four remaining options for the second, three for the third, two for the fourth, and then one for the fifth. Then, as with the first, five times four times three times two (times one, but that really isn't necessary) results in 120.

x(x2)2x2this is because the exponent only applies to the term right in front of it, unless there are parentheses.

Blake

It is a very large number, and when I calculate it I only get an exponent. The answer is 9.746371861371413e+18 (e+18 means that you move the decimal over to the right 18 times to get the non-decimal number).