Web1.diketahui f (x) = 3x - 4 dan g (x) = 2x, maka tentukanlah rumus (f o g) (x) dan (g o f) (x) ... Jawab: (f o g) (x) = g dimasukkan ke f menggantikan x (f o g) (x) = 3 (2x)-4 (f o g) (x) = 6x - 4 (g o f) (x) = f dimasukkan ke g menggantikan x (g o f) (x) = 2 (3x-4) (g o f) (x) = 6x-8 4. bantuinn dong, ini soal komposisi fungsi dan fungsi invers WebApr 10, 2024 · Anatomy and Physiology Chemistry Physics Social Science Political Science. ASK AN EXPERT. Math Advanced Math Maximize P = 5x − y subject to x − y ≤ −2, 3x + …
解分式方程5x+2x2+x=3x+1.32x−4+x2−x=12.2x2x−5−22x+5=1.xx2−4+xx−…
WebJun 21, 2024 · (x − 3)(2x2 − 5x + 1) See answers Advertisement Advertisement ... [x-3][2x2-5x+1] x[2x2-5x+1]-3[2x2-5x+1] 2x3-5x2+x-6x2+15x-3 2x3-11x2+16x-3. Advertisement … WebMay 4, 2016 · We now have the factors of x3 +2x2 −x −2, which are (x +2)(x +1)(x − 1), which can be rewritten as: x = −2, − 1,1. So let's just double check that we found all the zeros of x3 + 2x2 − x − 2 be graphing it graph {x^3+2x^2-x-2} And look, the three x -intercepts are what we said, x = 1, −1, − 2. Answer link Ratnaker Mehta Jun 14, 2016 the oaks woodstock ga
tìm nghiệm của các đa thức: h(x)=x2+5x+6 g(x)=2x2+7x-9
WebFeb 21, 2024 · for 2x2 + 5x − 3 a = 2,b = 5 and c = − 3 ⇒ ac = 2 × − 3 = − 6 the required factors of -6 are +6 and − 1 since 6 × − 1 = − 6 and + 6 −1 = +5 now express 2x2 + 5x − 3 as 2x2+6x −x −3 Factorise by 'grouping' ⇒ 2x(x +3) − 1(x +3) Take out common factor of (x +3) ⇒ (x + 3)(2x − 1) ← in factorised form Answer link WebQuestion Factorise: (x 3−2x 2−5x+6) Medium Solution Verified by Toppr Let f(x)=x 3−2x 2−5x+6 ⇒f(1)=1 3−21 2−5×1+6=1−2−5+6=0 Using synthetic division, we have x 2−x−6=0 is the other factor (x−1)(x 2−x−6)=0 =(x−1)(x 2−3x+2x−6)=0 =(x−1)(x(x−3)+2(x−3))=0 =(x−1)(x+2)(x−3) are the factors of f(x) Was this answer helpful? 0 0 Similar questions WebFactor 2x^3-x^2-5x-2. Step 1. Factor using the rational roots test. Tap for more steps... Step 1.1. If a polynomial function has integer coefficients, then every rational zero will have … the oaks woden