Solution to the first practice problem
Remember, we're simplifying using positive exponents, so we need to change x^-4. We know from our exponent properties that x^-4 is 1 / x^4 times y^5. Well, 5 is positive, so we don't need to change it.
My last step is to multiply. Our final, simplified answer is y^5 / x^4. This is our simplified answer with positive exponents.
Practice Problem #2
Let me show you another one. This time we have 5x^2y^9 / 15y^9x^4. Let's rewrite this with like terms over each other: 5/15 times x^2 / x^4 times y^9/y^9
We start at the beginning. 5/15 reduces to 1/3. Next, x^2 divided by x^4 is x^(2-4). y^9 divided by y^9 is y^(9-9). Let's keep simplifying. We have 1/3 times x^(2-4), which is -2, times y^(9-9), which is y^0. This gives us 1/3 times 1/x^2 times 1. Multiplying straight across, our final answer is 1/3x^2.
Steps in solving practice problem #2
This is our answer simplified using positive exponents.
Practice Problem #3
There are a lot of letters and numbers here, but don't let them trick you. If we keep separating the terms and following the properties, we'll be fine.
Our first step is to simplify (2p)^3. We distribute the exponent to everything in the parenthesis. This will give us (8p)^3q^4 in the bottom or denominator, but our top or numerator will stay the same.
Next, we separate them into multiplication: 16/8 times p/p^3 times q^2 / q^4 times r^9.
Here's the fun part, simplify. 16/8 is 2/1 times p^(1-3) times q^(2-4) times r^9.
We're almost done: 2 times p^(1-3) is -2, times q^(2-4), which is q^(-2) times r^9.
We are asked to simplify using positive exponents: p^(-2) is the same as 1/p^2; q^(-2) is the same 1/q^2.
Solution for the third practice problem
Finally, our last step - multiplying the fractions straight across. Our final answer is r^9 / p^2q^2. This is in simplified form using positive exponents.
Remember, it will take time and practice to be good at simplifying fractions.