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import graph3;
import solids;
size(0,150);
currentprojection=perspective(0,0,11,up=Y);
pen color1=green+opacity(0.25);
pen color2=red;
real alpha=250;
real f(real x) {return 2x^2-x^3;}
pair F(real x) {return (x,f(x));}
triple F3(real x) {return (x,f(x),0);}
ngraph=12;
path[] p={graph(F,0.7476,1.8043,Spline)--cycle,
graph(F,0.7,0.7476,Spline)--graph(F,1.7787,1.8043,Spline)--cycle,
graph(F,0,0.7,Spline)--graph(F,1.8043,2,Spline)--cycle};
pen[] pn=new pen[] {color1,color2,color1};
render render=render(compression=0);
for(int i=0; i < p.length; ++i) {
revolution a=revolution(path3(p[i]),Y,0,alpha);
draw(surface(a),pn[i],render);
surface s=surface(p[i]);
draw(s,pn[i],render);
draw(rotate(alpha,Y)*s,pn[i],render);
}
draw((4/3,0,0)--F3(4/3),dashed);
xtick("$\frac{4}{3}$",(4/3,0,0));
xaxis3(Label("$x$",1),Arrow3);
yaxis3(Label("$y$",1),ymax=1.25,dashed,Arrow3);
arrow("$y=2x^2-x^3$",F3(1.6),X+Y,0.75cm,red);
draw(arc(1.1Y,0.3,90,0,7.5,180),Arrow3);
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