Smooth covering map and smooth embedding

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In summary, the conversation discusses a map F:S^2->R^4 and using a smooth covering map p:S^2->RP^2 to show that F descends to a smooth embedding of RP^2 into R^4. The problem is to show that there exists a map f: RP^2-->R^4 such that f o p = F, and it can be done by checking that F is constant on the fibers of p.
  • #1
huyichen
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Now F:S^2->R^4 is a map of the following form:
F(x,y)=(x^2-y^2,xy,xz,yz)
now using the smooth covering map p:S^2->RP^2, p is the composition of inclusion map i:S^2->R^3 and the quotient map q:R^3\{0}->RP^2. show that F descends to a smooth embedding of RP^2 into R^4.

Is the problem asked to show that F。p^(-1) is a smooth embedding? I am confused, and if it is the case, then how should we compute the Jacobian matrix for F。p^(-1)?
 
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  • #2
Essentially, yes, but notice that p^-1 is ill defined. Instead, you must show that there exists a map f: RP^2-->R^4 such that f o p = F (and that it is a smooth embedding). Observe that this only means checking that F is constant on the fibers of p.
 

1. What is a smooth covering map?

A smooth covering map is a continuous function between differentiable manifolds that preserves the smoothness of the underlying structure. This means that the map is smooth (has continuous derivatives of all orders) and is also a surjective (onto) function.

2. How is a smooth covering map different from a regular covering map?

A smooth covering map differs from a regular covering map in that it preserves the smoothness of the underlying structure. This means that the map has continuous derivatives of all orders, while a regular covering map may not necessarily have this property.

3. What is a smooth embedding?

A smooth embedding is a type of mapping between manifolds where the map is one-to-one and preserves the smoothness of the underlying structures. This means that the map is smooth and injective (one-to-one).

4. How is a smooth embedding different from a regular embedding?

A smooth embedding differs from a regular embedding in that it preserves the smoothness of the underlying structures. This means that the map is smooth and injective, while a regular embedding may not necessarily have these properties.

5. Why are smooth covering maps and smooth embeddings important in mathematics?

Smooth covering maps and smooth embeddings are important in mathematics because they allow for the study of differentiable structures on manifolds. They also play a crucial role in various areas of mathematics, such as differential geometry, topology, and algebraic geometry, and have important applications in physics and engineering.

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