Equivalent equation means two equations, x and y,such thatx = y
The equation ( y - 6x = 15 - x ) can be rearranged to isolate ( y ). Adding ( 6x ) to both sides gives ( y = 15 - x + 6x ), which simplifies to ( y = 15 + 5x ). Therefore, the equivalent equation is ( y = 5x + 15 ).
It is: y = -4x+12
It is: y = -4x+12
If you mean y-6 = -4(x+1) then it is a straight line equation equivalent to y = -4x+2 when completed whereas the slope is -4 and the y intercept is 2
Equivalent equation means two equations, x and y,such thatx = y
y-x5 is an expression. An expression is not equivalent to any equation.
The equation ( y - 6x = 15 - x ) can be rearranged to isolate ( y ). Adding ( 6x ) to both sides gives ( y = 15 - x + 6x ), which simplifies to ( y = 15 + 5x ). Therefore, the equivalent equation is ( y = 5x + 15 ).
It is: y = -4x+12
It is: y = -4x+12
-4
If x = y, then the equation is true for any integer pair. Otherwise, the equation is not equivalent and is impossible.
If you mean y-6 = -4(x+1) then it is a straight line equation equivalent to y = -4x+2 when completed whereas the slope is -4 and the y intercept is 2
The vertex form is y = (x - 4)2 + 13
To determine if a graph is symmetric with respect to the x-axis, check if replacing (y) with (-y) in the equation yields an equivalent equation. For y-axis symmetry, replace (x) with (-x) and see if the equation remains unchanged. For origin symmetry, replace both (x) with (-x) and (y) with (-y) and verify if the equation is still the same. If the equation holds true for any of these conditions, the graph exhibits the corresponding symmetry.
3y = 2x + 15
y=mx+c c is the y axis intercept. M is the gradient. The slope of the line is equivalent to m