Yes. Especially in the context of logarithms.
Why not? An exponent is just like any other number.
If a number (other than 0) has 0 as an exponent, it equals 1! It may be hard to believe but it is true, no matter what number. If a number has no exponent, there is basically an invisible 1 as the exponent, so the number would be equal to itself. Zero with the exponent zero is meaningless.
Powers, Indices and Degree
This is a procedure used to help people who are new to negative exponents. A negative exponent, when moved to the other side of the fraction, becomes a positive exponent and beginners are more comfortable with working with positive fractions.
Example(4)2 ( 3)first you take care of the exponent(16)(3)then you times the other numbersYou might mean what happens when you raise and exponent to a power?You multiply the the exponents.
Let's assume a base 10, although the following reasoning works for any other base as well (e.g., for natural logarithms, base e) . x = log10100 is defined as the solution of: 10x = 100 And the solution is 2. On the other hand, x = log100 is the solution of: 10x = 0 This has no solution, as you can easily verify. If the exponent, x, gets smaller and smaller (tending towards minus infinity), the expression gets closer and closer to zero, but never quite reaches it.
A mixture is a combination of two or more different types of materials. A solution is a type of mixture where one material dissolves into the other. In a mixture of a third solution, the mixture would have to keep it's properties and so would the solution.
Love gives power to the person loved resulting in an empowerment of the other; Love causes a person to do things they otherwise would not do.
Yes. You always add the other solution to the acid, not the acid to the solution. This is so that the other solution dilutes the acid, not just having the first bit of acid poured in react with all of the other solution, which would likely have a very violent reaction.
you would not see the same effect because there is sugar in one and not in the other
20 with an exponent of 2 means 20 squared, or 20 times 20, or 400. An exponent of 3 means 20 cubed, or 20 times 20 times 20, or 8000. The exponents work as they do for any other base.
A fry would loose mass if it was hypotonic and the solution was hypertonic, in other words if the solution contained more solute than the fry. This would change the mass because through osmosis the water would balance out the ratio of solvent to solute in the fry and the solution, since the solution originally had more solute than the fry, more water would have to go to the solution to balance it out.