Apotemi Yayinlari Analitik Geometri ❲Linux❳

Expand LHS: ( 144u^3 + 288u^2 + 144u + 70u^2 + 140u + 70 = 144u^3 + (288+70)u^2 + (144+140)u + 70 ) ( = 144u^3 + 358u^2 + 284u + 70 ).

Discriminant: ( 72^2 - 4\cdot 37 \cdot 35 = 5184 - 5180 = 4 ). So ( u = \frac-72 \pm 274 ). Positive root: ( u = \frac-7074 ) (neg) or ( u = \frac-7474 = -1 ) (neg). No positive ( u )? Apotemi Yayinlari Analitik Geometri

That means ( h'(u) ) never zero for ( u>0 ) — so minimum at boundary ( u\to 0^+ ) or ( u\to\infty ). Check: As ( u\to 0^+ ), ( h(u) \sim 140u / 1 \to 0 ). As ( u\to\infty ), ( h(u) \sim 144u^2 / u^2 = 144 ). So ( h(u) ) increases from 0 to 144. So minimal area → 0 as ( m\to 0^+ ). But slope ( m>0 ), line through ( B(-2,0) ) — as ( m\to 0 ), line is horizontal ( y=0 ), intersects circle at two points symmetric about center’s vertical line? Wait, ( m=0 ) gives ( y=0 ), circle: ( (x+2)^2 + 1 = 36 ) ⇒ ( (x+2)^2 = 35 ) ⇒ two intersections. Then area formula: ( A=2m|t_1-t_2| ) with ( m=0 ) → area 0? But triangle degenerates? Yes, all points on x-axis: ( A(2,0) ) and ( R_1,R_2 ) on x-axis → collinear → area 0. But ( m>0 ) strictly? Problem says ( m>0 ), so infimum is 0 but not attained. Likely they expect answer for minimal positive area? Then no min, only infimum. Expand LHS: ( 144u^3 + 288u^2 + 144u

RHS: ( (144u^2+140u)(u+1) = 144u^3 + 144u^2 + 140u^2 + 140u = 144u^3 + 284u^2 + 140u ). Positive root: ( u = \frac-7074 ) (neg)

Use ( x_0^2 + y_0^2 = 16 ): [ \left( \frac23(Y - 1) \right)^2 + \left( -\frac23(X + 2) \right)^2 = 16. ] [ \frac49 (Y - 1)^2 + \frac49 (X + 2)^2 = 16. ] Multiply by ( 9/4 ): [ (Y - 1)^2 + (X + 2)^2 = 36. ]

Cancel ( 1152u^2 ) both sides: ( 1712u + 560 = 1120u \implies 592u = -560 ) — impossible for ( u>0 ).

Set derivative ( g'(u) = 0 ): Numerator derivative: Let ( N = 576u^2 + 560u ), ( D = (1+u)^2 ). ( N' = 1152u + 560 ), ( D' = 2(1+u) ). ( g'(u) = \fracN' D - N D'D^2 = 0 \Rightarrow N' D = N D' ).