To find the coordinates for the equation ( y = 4x - 3 ), you can choose various values for ( x ) and calculate the corresponding ( y ) values. For example, if ( x = 0 ), then ( y = -3 ), giving the coordinate (0, -3). If ( x = 1 ), then ( y = 1 ), resulting in the coordinate (1, 1). Thus, some coordinates on this line are (0, -3) and (1, 1).
It depends on what y is equal to. Insert what y is into the equation: y+4*3=? But simplified, it's... y+12=?
4x3=12 250-12=238 238/50=4.76
4x3+10x2+2x+5= (2x+5)(2x2+1)
In a 4x3 grid, you can find squares of various sizes. The total number of squares includes: 12 (1x1 squares), 6 (2x2 squares), and 2 (3x3 squares). Adding these together, there are 20 squares in total in a 4x3 grid.
Mathematics. An algebraic expression consisting of only one term is called a monomial therefore:4x3 is a monomial it has only have one term.
It depends on what y is equal to. Insert what y is into the equation: y+4*3=? But simplified, it's... y+12=?
4x3 times 4x3 = 16x6
(4x3)+2 = 14
21-4x3 is equal to 9.
Yes, 4x3 or 3x4 does equal 12.
Interpreting this equation as y=4x3+4x2 This is not a quadratic equation. By definition, a quadratic equation is a polynomial equation of order two, meaning it is composed only of coefficients multiplied by x's raised to any exponential power of maximum 2. The most that any of the exponents in the equation can be is 2. Since this equation has a term of 4x3, it is not quadratic since this term has an exponent of 3. This means that the equation is of degree three. This equation is a cubic equation.
When x = 2, 4x3 = 32
gcf of 4x3=6 gcf of 3x8=8
4x3=12 250-12=238 238/50=4.76
4x3+12x2+3x+9
12x
One step you usually want to take is to move any perfect square out of the radical. Example 1, with numbers: root(12) = root(4x3) = root(4) x root(3) = 2 root(3) Example 2, with variables: root(y cubed) = root(y squared times y) = root(y squared) times root(y) = y root(y)