Tuesday, October 22, 2019

Understanding Equivalent Equations in Algebra

Understanding Equivalent Equations in Algebra Equivalent equations are systems of equations that have the same solutions. Identifying and solving equivalent equations is a valuable skill, not only in algebra class, but also in everyday life. Take a look at examples of equivalent equations, how to solve them for one or more variables, and how you might use this skill outside a classroom. Key Takeaways Equivalent equations are algebraic equations that have identical solutions or roots.Adding or subtracting the same number or expression to both sides of an equation produces an equivalent equation.Multiplying or dividing both sides of an equation by the same non-zero number produces an equivalent equation. Linear Equations With One Variable The simplest examples of equivalent equations dont have any variables. For example, these three equations are equivalent to each other: 3 2 54 1 55 0 5 Recognizing these equations are equivalent is great, but not particularly useful. Usually an equivalent equation problem asks you to solve for a variable to see if it is the same (the same root) as the one in another equation. For example, the following equations are equivalent: x 5-2x -10 In both cases, x 5. How do we know this? How do you solve this for the -2x -10 equation? The first step is to know the rules of equivalent equations: Adding or subtracting the same number or expression to both sides of an equation produces an equivalent equation.Multiplying or dividing both sides of an equation by the same non-zero number produces an equivalent equation.Raising both sides of the equation to the same odd power or taking the same odd root will produce an equivalent equation.If both sides of an equation are non-negative, raising both sides of an equation to the same even power or taking the same even root will give an equivalent equation. Example Putting these rules into practice, determine whether these two equations are equivalent: x 2 72x 1 11 To solve this, you need to find x for each equation. If x is the same for both equations, then they are equivalent. If x is different (i.e., the equations have different roots), then the equations are not equivalent. For the first equation: x 2 7x 2 - 2 7 - 2 (subtracting both sides by same number)x 5 For the second equation: 2x 1 112x 1 - 1 11 - 1 (subtracting both sides by the same number)2x 102x/2   10/2 (dividing both sides of the equation by the same number)x 5 So, yes, the two equations are equivalent because x 5 in each case. Practical Equivalent Equations You can use equivalent equations in daily life. Its particularly helpful when shopping. For example, you like a particular shirt. One company offers the shirt for $6 and has $12 shipping, while another company offers the shirt for $7.50 and has $9 shipping. Which shirt has the best price? How many shirts (maybe you want to get them for friends) would you have to buy for the price to be the same for both companies? To solve this problem, let x be the number of shirts. To start with, set x 1 for the purchase of one shirt. For company #1: Price 6x 12 (6)(1) 12 6 12 $18 For company #2: Price 7.5x 9 (1)(7.5) 9 7.5 9 $16.50 So, if youre buying one shirt, the second company offers a better deal. To find the point where prices are equal, let x remain the number of shirts, but set the two equations equal to each other. Solve for x to find how many shirts youd have to buy: 6x 12 7.5x 96x - 7.5x 9 - 12 (subtracting the same numbers or expressions from each side)-1.5x -31.5x 3 (dividing both sides by the same number, -1)x 3/1.5 (dividing both sides by 1.5)x 2 If you buy two shirts, the price is the same, no matter where you get it. You can use the same math to determine which company gives you a better deal with larger orders and also to calculate how much youll save using one company over the other. See, algebra is useful! Equivalent Equations With Two Variables If you have two equations and two unknowns (x and y), you can determine whether two sets of linear equations are equivalent. For example, if youre given the equations: -3x 12y 157x - 10y -2 You can determine whether the following system is equivalent: -x 4y 57x -10y -2 To solve this problem, find x and y for each system of equations. If the values are the same, then the systems of equations are equivalent. Start with the first set. To solve two equations with two variables, isolate one variable and plug its solution into the other equation. To isolate the y variable: -3x 12y 15-3x 15 - 12yx -(15 - 12y)/3 -5 4y (plug in for x in the second equation)7x - 10y -27(-5 4y) - 10y -2-35 28y - 10y -218y 33y 33/18 11/6 Now, plug y back into either equation to solve for x: 7x - 10y -27x -2 10(11/6) Working through this, youll eventually  get x 7/3. To answer the question,  you could apply the same principles to the second set of equations to solve for x and y to find that yes, they are indeed equivalent. Its easy to get bogged down in the algebra, so its a good idea to check your work using an online equation solver. However, the clever student will notice the two sets of equations are equivalent without doing any difficult calculations at all. The only difference between the first equation in each set is that the first one is three times the second one (equivalent). The second equation is exactly the same.

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