The straight line equation is: y = mx+c whereas m is the slope and c is the y intercept
Without an equality sign the given expression can't be considered to be an equation.
Assuming the point is (3, -6) and the slope 1, the equation is x - y - 9 = 0
The straight line equation would depend on the slope which has not been given.
The equation given is correctly balanced, because it contains the same numbers of each kind of atoms in the reactants as in the products.
It can't be solved because it is not an equation but the given expression can be simplified to -2x-16
Without an equality sign the given expression can't be considered to be an equation.
Assuming the point is (3, -6) and the slope 1, the equation is x - y - 9 = 0
Without an equality sign the given expression is not an equation and so therefore a solution is not possible.
The straight line equation would depend on the slope which has not been given.
The equation given is correctly balanced, because it contains the same numbers of each kind of atoms in the reactants as in the products.
If the slope is 2/3 and the coordinate is (2, -1) then the straight line equation is 3y=2x-7
It can't be solved because it is not an equation but the given expression can be simplified to -2x-16
There is no possible value of x that will satisfy the given equation. There is no possible value of x that will satisfy the given equation. There is no possible value of x that will satisfy the given equation. There is no possible value of x that will satisfy the given equation.
The equation of the line will also depend on its slope which has not been given and so an answer is not possible.
It is the solution of the given equation.
x2 - 4x + 4 or (x - 2)2
If you have two equations give AND one parametric equation why do you need to find yet another equation?