Get ready for Algebra 2
1. Isolate one of the variables in one of the equations, e.g. rewrite 2x+y=3 as y=3-2x.
2. You can now express the isolated variable using the other one. *Substitute* that expression into the second equation, e.g. rewrite x+2y=5 as x+2(3-2x)=5.
3. Now you have an equation with one variable! Solve it, and use what you got to find the other variable.
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- What does he mean by the last video?(47 votes)
- Does Sal draw these pictures? if he does, I'm very impressed.(36 votes)
- So, which method is faster/easier/recommended: elimination or substitution?(15 votes)
- I don't know why my teacher put me into this class because i really don't know any of this. Every time i look at this question i get over whelmed because i dont get the problems he is doing.
- Let's use this example:
First, label the equations. 7x+10y=36 would be Equation 1, and 2x-y=-9 would be Equation 2. Next, multiply Equation 2 by an integer so that either the x values (2x and 7x) or the y values (-y and 10y) are equal. You could multiply Equation 2 by -10, for example, so the y values would be equal, since -y • -10 = 10y. Label the new equation, -20x+10y=90, Equation 3. Next, subtract Equation 3 from Equation 1. You should get 27x = -54. Divide both sides of the equation by 27, and you should get x=-2, so you've solved for x. Now, substitute x=-2 into Equation 2. You should get (-4)-y=(-9) (it is okay if you don't have the parentheses, I just put them there to emphasize the fact that -4 and -9 are negative). Add 4 to both sides of the equation to get - y=-5. Divide both sides of the equation by -1 to get y=5. You are done! (x,y)=(-2,5)!
My explanation is a little complicated, you might have to reread this. Hope it helps!(10 votes)
- the value for m = -4w+ 11 @1:49essentially the equation for the line which you could then use to find the answer to any combination/ variable to the problem(12 votes)
- Why does and how does this substitution work?(6 votes)
- because "m" is always equal to the same thing. "M' will always equal -4w + 11, no matter which equation it's in(8 votes)
- This does not make any sense to me at all, could you explain this in easier terms?(7 votes)
- I can try, though I'm not sure if this is easier or not. A system of equations is where you have more than one equation with the same variables and you need to find out what values of the variables will work for all the equations.
Here is an example: 2x+3y=12; 5x+y=17
Substitution is one way to solve it.
First, we can rearrange one of the equations in order to isolate one of the variables:
We now have a way to express y in terms of x, so we can put it into the other equation instead of y in order to solve for x:
Now we know what value x needs to be to satisfy both equations, so we can use that in place of x to solve for y.
We now know the values for both x and y, and in order to be quite sure, we can check them by putting them both into the first equation again:
This system of equations could also be solved in several other ways, such as elimination or graphing. In graphing, the point at which all equations in the system intersect is the solution.(5 votes)
- Im still confused on everything..(6 votes)
- where is the first video?(8 votes)
- Yeah, when he says, "Just as you were solving the potato chip conundrum in the last video..."(2 votes)
- 0:00He starts off by referring to "the last video" that features a problem with chips. That video is on elimination, but substitution comes before it in the current playlist. Did that originally come first? Which should I learn first?(5 votes)
- It does not matter which is learned first, so learning them in any order or even in parallel will work. The key is that when you have learned different methods, you hopefully can start choosing the best method based on what you see. You are correct that Sal moves things around quite often.(4 votes)