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A gömböc is a $3-$dimensional convex body (having uniform density) which has exactly one stable and one instable equilbrium position (see http://en.wikipedia.org/wiki/G%C3%B6mb%C3%B6c). Such a convex body keeps its properties under tiny perturbations. There exists thus a gömböc given by algebraic equations. What is the simplest (small degree and small coefficients) polynomial $P(x,y,z)\in\mathbb R^3$ such that $P(x,y,z)\leq 0$ defines a g\"omb\"ocgömböc?

Added after Stopple's remarks: Existence of an algebraic gömböc is not obvious. I should have asked first for existence.

Two other questions concerning these objects are:

Is the set of all (algebraic) gömböcs connected?

Are there any gömböcs in dimension $>3$? (There are none in dimension $2$, every $2-$dimensional convex set has at least $4$ equilibrium points.)
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Equations for an algebraic g\"omb\"ocgömböc

A g\"omb\"oc gömböc is a $3-$dimensional convex body (having uniform density) which has exactly one stable and one instable equilbrium position (see http://en.wikipedia.org/wiki/G%C3%B6mb%C3%B6c). Such a convex body keeps its properties under tiny perturbations. There exists thus a g\"omb\"oc gömböc given by algebraic equations. What is the simplest (small degree and small coefficients) polynomial $P(x,y,z)\in\mathbb R^3$ such that $P(x,y,z)\leq 0$ defines a g\"omb\"oc?

Two other questions concerning these objects are:

Is the set of all (algebraic) g\"omb\"ocs gömböcs connected?

Are there any g\"omb\"ocs gömböcs in dimension $>3$? (There are none in dimension $2$, every $2-$dimensional convex set has at least $4$ equilibrium points.)
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Equations for an algebraic g\"omb\"oc

A g\"omb\"oc is a $3-$dimensional convex body (having uniform density) which has exactly one stable and one instable equilbrium position (see http://en.wikipedia.org/wiki/G%C3%B6mb%C3%B6c). Such a convex body keeps its properties under tiny perturbations. There exists thus a g\"omb\"oc given by algebraic equations. What is the simplest (small degree and small coefficients) polynomial $P(x,y,z)\in\mathbb R^3$ such that $P(x,y,z)\leq 0$ defines a g\"omb\"oc?

Two other questions concerning these objects are:

Is the set of all (algebraic) g\"omb\"ocs connected?

Are there any g\"omb\"ocs in dimension $>3$? (There are none in dimension $2$, every $2-$dimensional convex set has at least $4$ equilibrium points.)