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f(x,y)=2(x−1)2+(y−2)2+4f(x, y) = 2(x - 1)^2 + (y - 2)^2 + 4f(x,y)=2(x−1)2+(y−2)2+4
x, y = var('x,y') plot3d(2*(x - 1)^2 + (y - 2)^2 + 4, (x,-1,3), (y,0,4), aspect_ratio=1)
f(x,y)=2(x−1)2−(y−2)2+4f(x, y) = 2(x - 1)^2 - (y - 2)^2 + 4f(x,y)=2(x−1)2−(y−2)2+4
x, y = var('x,y') plot3d(2*(x - 1)^2 - (y - 2)^2 + 4, (x,-1,3), (y,0,4), aspect_ratio=1)
f(x,y)=sinxsinyf(x, y) = \sin x\sin yf(x,y)=sinxsiny
x, y = var('x,y') plot3d(sin(x)*sin(y), (x,-10,10), (y,-10,10), aspect_ratio=1)
f(x,y)=sin(x+y)f(x, y) = \sin (x + y)f(x,y)=sin(x+y)
x, y = var('x,y') plot3d(sin(x + y), (x,-10,10), (y,-10,10), aspect_ratio=1)
f(x,y)=x4+y4f(x, y) = x^4 + y^4f(x,y)=x4+y4
x, y = var('x,y') plot3d(x^4 + y^4, (x,-1.5,1.5), (y,-1.5,1.5), aspect_ratio=1)
f(x,y)=x3+y3f(x, y) = x^3 + y^3f(x,y)=x3+y3
x, y = var('x,y') plot3d(x^3 + y^3, (x,-1.5,1.5), (y,-1.5,1.5), aspect_ratio=[2,2,1])
f(x,y)=x2+4y2−4xy+2f(x, y) = x^2 + 4y^2 - 4xy + 2f(x,y)=x2+4y2−4xy+2
x, y = var('x,y') plot3d(x^2 + 4*y^2 - 4*x*y + 2, (x,-5,5), (y,-5,5))
The graph of f(x,y)=tanyf(x, y) = \tan yf(x,y)=tany is in purple.
The point (0,0,0)(0, 0, 0)(0,0,0) is in red.
x, y = var('x,y') W = plot3d(tan(y), (x,-pi/4,pi/4), (y,-pi/4,pi/4), color='purple', opacity=0.8) S = sphere((0,0,0),size=0.02, color='red', aspect_ratio=[1,1,1]) show(W + S, figsize=5)
