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A single linear equation in two variables cannot be solved.
Yes, y = -4x + 3 is a linear equation.
Yes if you mean: y-4x = 3
Yes
X^2 - 4X = 10 halve the integer of the linear term (- 4X ), square it and add to both sides X^2 - 4X + 4 = 10 + 4 factor on the left and gather terms together on the right (X - 2)^2 = 14 (X - 2)^2 - 14 = 0 Vertex is, (2,-14) -----------
4x + 10 = 14 4x = 4 x = 1
4x + 10 = 14 4x = 4 x = 1
A single linear equation in two variables cannot be solved.
No it is NOT always bounded. Here is an example of an unbounded one. 1. 2x-y>-2 2. 4x+y
In algebra, if the only variable (or variables) completely disappear when solving inequalities, then the solution set is infinite (any value). Example: 2x + 7 < 4x +16 solves to 4x + 14 < 4x +16 which is true for any negative or positive value since 14 < 16
Yes, y = -4x + 3 is a linear equation.
Yes, y = 4x + 7 is a linear equation.
Yes if you mean: y-4x = 3
y = 4x-3 is already a linear equation. The slope is 4 and the y-intercept is -3
Yes.
Yes
I'm not sure what you mean by "the" linear equation. "A" linear equation is the equation of a line. 4x+7 = 2x + 5 is a linear equation in 1 variable. If you were to solve for x, you would get x = -1 which, if graphed, is a vertical line. For example y = 3x + 7 is a linear equation in two variables. This particular line has a slope of 3 and a y-intercept at (0,7). If graphed, it would pass through the y-axis at (0,7) and "rise" vertically +3 units for each horizontal "run" of +1 unit.