It is: 3y and y
2(3y + 1)(y - 2)
It is: (6y+1)(y-5) when factored
There is no rational factorisation of 6y2 + 19y - 13 The roots are [-19 +/- sqrt(673)]/12 which are -3.74519 and 0.57852
20x2 + 22xy + 6y2 = 20x2 + 10xy + 12xy + 6y2 = 10x(2x + y) + 6y(2x + y) = (2x + y)(10x + 6y) = 2(2x + y)(5x + 3y)
Since 75y^6 is a multiple of 15y^3, it is automatically the LCM.
3(2y + 3)(y + 2)
6y2+17y-14 = (2x+7)(3x-2) when factored
A = 3x2 + 9xy + 6y2l = 3x + 6yA = l×w∴ w = A/l∴ w = (3x2 + 9xy + 6y2) / (3x + 6y)∴ w = x + 1
It is a quadratic expression in the variable x.
That doesn't factor neatly. Applying the quadratic formula, we find two real solutions: (5 plus or minus the square root of 73) divided by 12 x = 1.128666978776461 x = -0.2953336454431275
6(y + 3)(y - 3)
6y2 + 11y - 2 = (6y - 1) (y + 2)
6y2 - 36 = 6ySubtract 6y from each side:6y2 - 6y - 36 = 0Divide each side by 6:y2 - y - 6 = 0Factor the expression on the left side:(y + 2) (y - 3) = 0The equation is a true statement if either factor is = 0.y + 2 = 0 ==> y = -2y - 3 = 0 ==> y = 3
(3x+2y)*(5x-3y) =3x*5x + 3x*(-3y) + 2y*5x + 2y*(-3y) [This is sometimes called the FOIL method - You multiply the First members of each bracket, then the Outers, Inners, Lasts] = 15x2 - 9xy + 10xy - 6y2 = 15x2 + xy - 6y2
a proper factor is a factor.
The 13 blood coagulation factors are: * Factor I - fibrinogen * Factor II - prothrombin * Factor III - tissue thromboplastin (tissue factor) * Factor IV - ionized calcium ( Ca++ ) * Factor V - labile factor or proaccelerin * Factor VI - unassigned * Factor VII - stable factor or proconvertin * Factor VIII - antihemophilic factor * Factor IX - plasma thromboplastin component, Christmas factor * Factor X - Stuart-Prower factor * Factor XI - plasma thromboplastin antecedent * Factor XII - Hageman factor * Factor XIII - fibrin-stabilizing factor
the economy factor is the factor that economies our world and the factor is the social of our factor