Reference no: EM131104375
Honors Examination: Topology
1. Let X be a topological space and A ⊆ X. Recall that the frontier of A is the subspace of X given by bdX = A-∩(X - A)-, where A indicates the closure of A.
(a) Give an example of a subset of R (with its usual topology) whose frontier is the closed interval [-1, 1].
(b) Suppose A and C are subspaces of X and that C meets both A and X - A. Show that if C is connected then C also meets bdA.
(c) Suppose that X and Y are topological spaces and that f: X → Y is a continuous function. Let A be a subset of X, and show that f(bdA) ⊆ bdf(A).
2. Armstrong gives the following definition: A surface is a topological space in which each point has a neighborhood homeomorphic to the plane, and for which any two distinct points possess disjoint neighborhoods.
(a) Give an example of a space satisfying the first condition but not the second.
(b) Give an example of a surface which cannot be embedded into any finite dimensional Euclidean space.
3. Let 8 denote the space obtained from the disjoint union of two circles by identifying a point from the first with a point from the second. Its fundamental group is the free group on two generators a, b, with generators corresponding to the two loops in 8.
(a) Describe the covering space of 8 corresponding to the subgroup generated by a. Your description might include a picture. As part of your answer, you should describe the covering map.
(b) Do the same for the minimal normal subgroup containing a.
(c) What is the group of deck (or covering) transformations of the covering space defined in (b)? Describe how it acts, in terms of your answer to (b).
4. Let D2 be the closed unit disk in the complex plane, and define the following equivalence relation: x ∼ y if and only if either x = y or |x| = 1 and x3 = y3 as complex numbers. Let X be the quotient space with respect to this equivalence relation.
(a) Is X connected?
(b) Is X compact?
(c) Is X Hausdorff?
(d) Is X a surface?
(e) Compute π1(X, o), where o is the class of the complex number 0.
(f) Show that X is a simplicial complex by describing (e.g. with a picture) an explicit triangulation.
(g) What is the Euler characteristic of X?
(h) Suppose that f: X → X is a continuous map. Is there a ∈ X such that f(a) = a?
(i) Compute the simplicial homology of X.
|
Government to intervene in the market for fast food
: Suppose that after a lifetime of consuming fattening fast food every day you develop heart disease. The government must pay most of your medical bills through the Medicare system. Is it correct to say that your consuming unhealthy meals created no ex..
|
|
The enterprise standard industrial classification
: The Enterprise Standard Industrial Classification (SIC) coding scheme, a published classification of firms into separate industries, is commonly used in practice.
|
|
What will be the potential difference between them
: If you disconnect the battery and separate the plates to a distance of 3.5mm without discharging them, what will be the potential difference between them?
|
|
Analyze and evaluate alternatives
: It needs to be written out with steps 1-5 for accounting research. Identify the issue/s. Collect the Evidence. Analyze and evaluate alternatives. Develop Conclusion. Communicate results and document.
|
|
What is the group of deck transformations
: Describe the covering space of 8 corresponding to the subgroup generated by a. Your description might include a picture. As part of your answer, you should describe the covering map
|
|
What is an exponential function
: 1. What is an exponential function? 2. Can you differentiate exponential and linear graphs? How?
|
|
Applications and read the corresponding article
: Section 22.2 introduced four actual applications of simulation that are described in articles in Interfaces. (The citations for the two that also use queueing models are given in Sec. 18.6)
|
|
Associated with fee-for-service insurance reimbursement
: Please explain the incentive problem associated with fee-for-service insurance reimbursement. How does switching to capitation reimbursement solve this problem? Can you make an argument that capitation creates a different incentive problem?
|
|
Find an equation of the sphere with points
: Find an equation of the sphere with points P such that the distance from P to A(-3, 5, 3) is twice the distance from P to B(5, 2, -2). Find its center and radius.
|