math104-s21:s:morganmakhina
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math104-s21:s:morganmakhina [2021/05/05 20:41] 107.77.212.37 |
math104-s21:s:morganmakhina [2022/01/11 10:57] (current) pzhou ↷ Page moved from math104-2021sp:s:morganmakhina to math104-s21:s:morganmakhina |
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| - | ====Morgan' | + | =====Morgan' |
| + | ====Number systems: | ||
| - | === Some Questions=== | + | **1-5) What are real numbers, anyway? Why do we need them? How can we rigorously define (ie, construct) them? What are some properties of that other number systems don't have? And, by the way: what are some properties of that we use in real analysis (perhaps sometimes taking them for granted)? |
| + | ** | ||
| - | ==Number systems, sequences, limits, &c== | ||
| - | **1-4) What are real numbers, anyway? Why do we need them? How can we rigorously define (ie, construct) them? What are some properties of that other number systems don't have? | ||
| - | ** | ||
| - | **5) Sets, sequences, series... | + | ====Sets, sequences, series...==== |
| - | **6)What' | + | **6) What' |
| - | **7) How can you tell if a sequence converges (and, if it does, how can you tell what it converges to)? ** | + | **7)What' |
| - | **8) How can you tell if a series | + | **8) How can you tell if a sequence |
| - | **9)What is radius of convergence?** | + | **9) How can you tell if a series converges (and, if it does, how can you tell what it converges to)? ** |
| - | ==Metric Spaces== | + | **10)What is radius of convergence? |
| - | **What' | + | **11) Why do we care about monotone sequences? |
| + | |||
| + | ====Topology: | ||
| + | |||
| + | **What' | ||
| ** What are some familiar and less familiar metrics (distance functions)? | ** What are some familiar and less familiar metrics (distance functions)? | ||
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| ** What are some examples of functions that aren't distance functions, even though they have some properties in common with distance functions? | ** What are some examples of functions that aren't distance functions, even though they have some properties in common with distance functions? | ||
| - | What's a complete metric space? | + | **What's a complete metric space?** |
| - | ==Topology== | + | **What are topological spaces, and how is this notion different from that of a metric space?** |
| - | What are topological spaces, and how is this notion different from that of a metric space? | + | **Topological concepts are intuitive... until they' |
| - | Topological concepts are intuitive... until they' | ||
| - | What are some of the particularly useful results in this section? | + | **Which properties |
| - | Compact vs closed & bounded: when are these equivalent? When are they not equivalent? | + | **Compact vs closed & bounded: when are these equivalent? When are they not equivalent?** |
| - | What does " | + | **What does " |
| + | **What' | ||
| + | **What is the Heine-Borel Theorem? When can we apply it, and when should we not apply it?** | ||
| + | **What is the Bolzano-Weierstrass Theorem, and how does it relate to the Heine-Borel Theorem?** | ||
| - | What's so special about compact sets? (Ie, what are some theorems we proved about compact sets that won't hold for other kinds of sets?) | + | **What are some of the particularly useful results in this section?** |
| + | ====Continuity: | ||
| + | **What' | ||
| + | ** What conclusions can we make if we know a function is continuous? | ||
| + | ** What conclusions might we be tempted to make about continuous functions that actually aren't true? | ||
| + | ** | ||
| - | What's a continuous function? What conclusions can we make if we know a function | + | **What is uniform continuity?** |
| + | ====Sequences of Functions: | ||
| - | What is uniform | + | **What is the difference between pointwise and uniform |
| - | ==Sequences | + | ** What are some examples |
| + | |||
| + | **What conclusions can we make about uniformly converging sequences of functions that would no longer necessarily be valid if we replaced uniform convergence by pointwise convergence? | ||
| + | |||
| + | **What conclusions might we be tempted to make about uniformly converging sequences (of functions) that aren't actually true? | ||
| + | ** | ||
| - | What is the difference between pointwise and uniform convergence? | + | ==== Derivatives: |
| - | What conclusions can we make about uniformly converging sequences | + | **What are some of the key theorems in this section?** |
| - | What conclusions might we be tempted to make about uniformly converging sequences (of functions) that aren't actually true? | + | **What are some surprising results in this section?** |
| + | **When do Taylor series approximations fail?** | ||
| - | == Derivatives, Integrals, etc== | + | **What is Taylor' |
| - | What are some of the key theorems in this section? | ||
| - | What are some surprising results in this section? | + | ====Integration: |
| - | When do Taylor series approximations fail? | ||
| - | What is Taylor' | ||
| + | ====Extras: | ||
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| - | ===Bonus Questions=== | + | ====Bonus Questions:==== |
| **What were some of the particularly surprising, memorable, and fun things I learned in this course?** | **What were some of the particularly surprising, memorable, and fun things I learned in this course?** | ||
math104-s21/s/morganmakhina.1620272466.txt.gz · Last modified: 2021/05/05 20:41 by 107.77.212.37
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