Solving Equations with Rational Expressions Solving Equations with Rational Expressions While adding and subtracting rational expressions is a royal pain, solving rational equations is much simpler. (Note that I don't say that it's "simple", just that it's "simpler".) This is because, as soon as you go from a rational expression (with no "equals" sign in it) to a rational equation (with an "equals" sign in the middle), you get a whole different set of tools to work with. In particular, you can multiply through on both sides of the equation to get rid of the denominators. This equation is so simple that I can solve it just by looking at it: since I have two-thirds equal to xthirds, clearly x = 2. The reason this was so easy to solve is that the denominators were the same, so all I had to do was solve the numerators. Now I can compare the numerators: x–1=6 x=7 Note, however, that I could also have solved this by multiplying through on both sides by the common denominator: Know ore About :- Polynomials
Math.Edurite.com
Page : 1/3
x – 1 = 2(3) x–1=6 x=7 When you were adding and subtracting rational expressions, you had to find a common denominator. Now that you have equations (with an "equals" sign in the middle), you are allowed to multiply through (because you have two sides to multiply on) and get rid of the denominators entirely. In other words, you still need to find the common denominator, but you don't necessarily need to use it in the same way. Here are some more complicated examples: First, I need to check the denominators: they tell me that x cannot equal zero or –2 (since these values would cause division by zero). I'll re-check at the end, to make sure any solutions I find are "valid". There are two ways to proceed with solving this equation. I could convert everything to the common denominator of 5x(x + 2) and then compare the numerators. At this point, the denominators are the same. So do they really matter? Not really (other than for saying , what values x can't be). At this point, the two sides of the equation will be equal as long as the numerators are equal. That is, all I really need to do now is solve the numerators: 15x – (5x + 10) = x + 2 10x – 10 = x + 2 9x = 12 x = 12/9 = 4/3 Since x = 4/3 won't cause any division-by-zero problems in the fractions in the original equation, then this solution is valid. x = 4/3 I said there were two ways to solve this problem. The above is one method. Another method is to find the common denominator but, rather than converting everything to that denominator, I'll take advantage of the fact that I have an equation here, and multiply through on both sides by that common denominator. This will get rid of the denominators: Read More About :- Geometry Congruent Triangles
Math.Edurite.com
Page : 2/3
Thank You
Math.Edurite.Com